Metabolic-stress sensing protein kinase that phosphorylates the alpha subunit of eukaryotic translation initiation factor 2 (eIF-2-alpha/EIF2S1) on 'Ser-52' during the unfolded protein response (UPR) and in response to low amino acid availability. Converts phosphorylated eIF-2-alpha/EIF2S1 either in a global protein synthesis inhibitor, leading to a reduced overall utilization of amino acids, or to a translation initiation activator of specific mRNAs, such as the transcriptional activator ATF4, and hence allowing ATF4-mediated reprogramming of amino acid biosynthetic gene expression to alleviate nutrient depletion. Serves as a critical effector of unfolded protein response (UPR)-induced G1 growth arrest due to the loss of cyclin-D1 (CCND1). Involved in control of mitochondrial morphology and function. / ATP + a protein = ADP + a phosphoprotein. / Perturbation in protein folding in the endoplasmic reticulum (ER) promotes reversible dissociation from HSPA5/BIP and oligomerization, resulting in transautophosphorylation and kinase activity induction.
Anti-PERK-http://www.stjohnslabs.com/perk-antibody
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Electron carrier protein. The oxidized form of the cytochrome c heme group can accept an electron from the heme group of the cytochrome c1 subunit of cytochrome reductase. Cytochrome c then transfers this electron to the cytochrome oxidase complex, the final protein carrier in the mitochondrial electron-transport chain.; Plays a role in apoptosis. Suppression of the anti-apoptotic members or activation of the pro-apoptotic members of the Bcl-2 family leads to altered mitochondrial membrane permeability resulting in release of cytochrome c into the cytosol. Binding of cytochrome c to Apaf-1 triggers the activation of caspase-9, which then accelerates apoptosis by activating other caspases.
Anti-CYCS - http://www.stjohnslabs.com/anti-cycs-antibody?filter_name=STJ98953
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AKT1 is one of 3 closely related serine/threonine-protein kinases (AKT1, AKT2 and AKT3) called the AKT kinase, and which regulate many processes including metabolism, proliferation, cell survival, growth and angiogenesis. This is mediated through serine and/or threonine phosphorylation of a range of downstream substrates.AKT is responsible of the regulation of glucose uptake by mediating insulin-induced translocation of the SLC2A4/GLUT4 glucose transporter to the cell surface. Phosphorylation of PTPN1 at 'Ser-50' negatively modulates its phosphatase activity preventing dephosphorylation of the insulin receptor and the attenuation of insulin signaling. Phosphorylation of TBC1D4 triggers the binding of this effector to inhibitory 14-3-3 proteins, which is required for insulin-stimulated glucose transport. AKT regulates also the storage of glucose in the form of glycogen by phosphorylating GSK3A at 'Ser-21' and GSK3B at 'Ser-9', resulting in inhibition of its kinase activity.
Anti-Akt -http://www.stjohnslabs.com/akt-antibody-p-91115
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Nuclear hormone receptor. The steroid hormones and their receptors are involved in the regulation of eukaryotic gene expression and affect cellular proliferation and differentiation in target tissues. Ligand-dependent nuclear transactivation involves either direct homodimer binding to a palindromic estrogen response element (ERE) sequence or association with other DNA-binding transcription factors, such as AP-1/c-Jun, c-Fos, ATF-2, Sp1 and Sp3, to mediate ERE-independent signaling. Ligand binding induces a conformational change allowing subsequent or combinatorial association with multiprotein coactivator complexes through LXXLL motifs of their respective components. Mutual transrepression occurs between the estrogen receptor (ER) and NF-kappa-B in a cell-type specific manner. Decreases NF-kappa-B DNA-binding activity and inhibits NF-kappa-B-mediated transcription from the IL6 promoter and displace RELA/p65 and associated coregulators from the promoter. Recruited to the NF-kappa-B response element of the CCL2 and IL8 promoters and can displace CREBBP.
Anti-ERα-http://www.stjohnslabs.com/era-antibody-p-92238
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CD23, also known as Fc epsilon RII, or FcεRII, is the "low-affinity" receptor for IgE, an antibody isotype involved in allergy and resistance to parasites, and is important in regulation of IgE levels. Unlike many of the antibody receptors, CD23 is a C-type lectin. It is found on mature B cells, activated macrophages, eosinophils, follicular dendritic cells, and platelets.
There are two forms of CD23: CD23a and CD23b. CD23a is present on follicular B cells, whereas CD23b requires IL-4 to be expressed on T-cells, monocytes, Langerhans cells, eosinophils, and macrophages. CD23 is known to have a role of transportation in antibody feedback regulation. Antigens which enter the blood stream can be captured by antigen specific IgE antibodies. The IgE immune complexes that are formed bind to CD23 molecules on B cells, and are transported to the B cell follicles of the spleen. The antigen is then transferred from CD23+ B cells to CD11c+ antigen presenting cells. The CD11c+ cells in turn present the antigen to CD4+ T cells, which can lead to an enhanced antibody response.
Anti-CD23 -http://www.stjohnslabs.com/cd23-antibody-p-98586
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Steroid hormone receptors are ligand-activated transcription factors that regulate eukaryotic gene expression and affect cellular proliferation and differentiation in target tissues. Transcription factor activity is modulated by bound coactivator and corepressor proteins. Transcription activation is down-regulated by NR0B2. Activated, but not phosphorylated, by HIPK3 and ZIPK/DAPK3. / Isoform 3 and isoform 4 lack the C-terminal ligand-binding domain and may therefore constitutively activate the transcription of a specific set of genes independently of steroid hormones. / AIM-100 (4-amino-5, 6-biaryl-furo[2, 3-d]pyrimidine) suppresses TNK2-mediated phosphorylation at Tyr-269. Inhibits the binding of the Tyr-269 phosphorylated form to androgen-responsive enhancers (AREs) and its transcriptional activity.
Anti-AR-http://www.stjohnslabs.com/ar-antibody-p-98868
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Growth factor that plays an essential role in the regulation of embryonic development, cell proliferation, cell migration, survival and chemotaxis. Potent mitogen for cells of mesenchymal origin . Required for normal proliferation and recruitment of pericytes and vascular smooth muscle cells in the central nervous system, skin, lung, heart and placenta. Required for normal blood vessel development, and for normal development of kidney glomeruli. Plays an important role in wound healing. Signaling is modulated by the formation of heterodimers with PDGFA (By similarity).
Anti-PDGF-B-http://www.stjohnslabs.com/pdgf-b-antibody
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Nuclear hormone receptor. Binds estrogens with an affinity similar to that of ESR1, and activates expression of reporter genes containing estrogen response elements (ERE) in an estrogen-dependent manner . Isoform beta-cx lacks ligand binding ability and has no or only very low ere binding activity resulting in the loss of ligand-dependent transactivation ability. DNA-binding by ESR1 and ESR2 is rapidly lost at 37 degrees Celsius in the absence of ligand while in the presence of 17 beta-estradiol and 4-hydroxy-tamoxifen loss in DNA-binding at elevated temperature is more gradual.
Anti-ERβ-http://www.stjohnslabs.com/erb-antibody
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Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types. Acts as a regulator of neural stem cells quiescence by mediating anchorage of neural stem cells to ependymocytes in the adult subependymal zone: upon cleavage by MMP24, CDH2-mediated anchorage is affected, leading to modulate neural stem cell quiescence. CDH2 may be involved in neuronal recognition mechanism. In hippocampal neurons, may regulate dendritic spine density (By similarity).
Anti-N-cadherin-http://www.stjohnslabs.com/n-cadherin-antibody-p-93283
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Electron carrier protein. The oxidized form of the cytochrome c heme group can accept an electron from the heme group of the cytochrome c1 subunit of cytochrome reductase. Cytochrome c then transfers this electron to the cytochrome oxidase complex, the final protein carrier in the mitochondrial electron-transport chain.; Plays a role in apoptosis. Suppression of the anti-apoptotic members or activation of the pro-apoptotic members of the Bcl-2 family leads to altered mitochondrial membrane permeability resulting in release of cytochrome c into the cytosol. Binding of cytochrome c to Apaf-1 triggers the activation of caspase-9, which then accelerates apoptosis by activating other caspases.
Anti-CYCS - http://www.stjohnslabs.com/anti-cycs-antibody?filter_name=STJ98953
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AKT1 is one of 3 closely related serine/threonine-protein kinases (AKT1, AKT2 and AKT3) called the AKT kinase, and which regulate many processes including metabolism, proliferation, cell survival, growth and angiogenesis. This is mediated through serine and/or threonine phosphorylation of a range of downstream substrates.AKT is responsible of the regulation of glucose uptake by mediating insulin-induced translocation of the SLC2A4/GLUT4 glucose transporter to the cell surface. Phosphorylation of PTPN1 at 'Ser-50' negatively modulates its phosphatase activity preventing dephosphorylation of the insulin receptor and the attenuation of insulin signaling. Phosphorylation of TBC1D4 triggers the binding of this effector to inhibitory 14-3-3 proteins, which is required for insulin-stimulated glucose transport. AKT regulates also the storage of glucose in the form of glycogen by phosphorylating GSK3A at 'Ser-21' and GSK3B at 'Ser-9', resulting in inhibition of its kinase activity.
Anti-Akt -http://www.stjohnslabs.com/akt-antibody-p-91115
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Nuclear hormone receptor. The steroid hormones and their receptors are involved in the regulation of eukaryotic gene expression and affect cellular proliferation and differentiation in target tissues. Ligand-dependent nuclear transactivation involves either direct homodimer binding to a palindromic estrogen response element (ERE) sequence or association with other DNA-binding transcription factors, such as AP-1/c-Jun, c-Fos, ATF-2, Sp1 and Sp3, to mediate ERE-independent signaling. Ligand binding induces a conformational change allowing subsequent or combinatorial association with multiprotein coactivator complexes through LXXLL motifs of their respective components. Mutual transrepression occurs between the estrogen receptor (ER) and NF-kappa-B in a cell-type specific manner. Decreases NF-kappa-B DNA-binding activity and inhibits NF-kappa-B-mediated transcription from the IL6 promoter and displace RELA/p65 and associated coregulators from the promoter. Recruited to the NF-kappa-B response element of the CCL2 and IL8 promoters and can displace CREBBP.
Anti-ERα-http://www.stjohnslabs.com/era-antibody-p-92238
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CD23, also known as Fc epsilon RII, or FcεRII, is the "low-affinity" receptor for IgE, an antibody isotype involved in allergy and resistance to parasites, and is important in regulation of IgE levels. Unlike many of the antibody receptors, CD23 is a C-type lectin. It is found on mature B cells, activated macrophages, eosinophils, follicular dendritic cells, and platelets.
There are two forms of CD23: CD23a and CD23b. CD23a is present on follicular B cells, whereas CD23b requires IL-4 to be expressed on T-cells, monocytes, Langerhans cells, eosinophils, and macrophages. CD23 is known to have a role of transportation in antibody feedback regulation. Antigens which enter the blood stream can be captured by antigen specific IgE antibodies. The IgE immune complexes that are formed bind to CD23 molecules on B cells, and are transported to the B cell follicles of the spleen. The antigen is then transferred from CD23+ B cells to CD11c+ antigen presenting cells. The CD11c+ cells in turn present the antigen to CD4+ T cells, which can lead to an enhanced antibody response.
Anti-CD23 -http://www.stjohnslabs.com/cd23-antibody-p-98586
Join our Antibody Validation Project - http://www.stjohnslabs.com/services/antibody-validation
Steroid hormone receptors are ligand-activated transcription factors that regulate eukaryotic gene expression and affect cellular proliferation and differentiation in target tissues. Transcription factor activity is modulated by bound coactivator and corepressor proteins. Transcription activation is down-regulated by NR0B2. Activated, but not phosphorylated, by HIPK3 and ZIPK/DAPK3. / Isoform 3 and isoform 4 lack the C-terminal ligand-binding domain and may therefore constitutively activate the transcription of a specific set of genes independently of steroid hormones. / AIM-100 (4-amino-5, 6-biaryl-furo[2, 3-d]pyrimidine) suppresses TNK2-mediated phosphorylation at Tyr-269. Inhibits the binding of the Tyr-269 phosphorylated form to androgen-responsive enhancers (AREs) and its transcriptional activity.
Anti-AR-http://www.stjohnslabs.com/ar-antibody-p-98868
Join our Antibody Validation Project - http://www.stjohnslabs.com/services/antibody-validation
Growth factor that plays an essential role in the regulation of embryonic development, cell proliferation, cell migration, survival and chemotaxis. Potent mitogen for cells of mesenchymal origin . Required for normal proliferation and recruitment of pericytes and vascular smooth muscle cells in the central nervous system, skin, lung, heart and placenta. Required for normal blood vessel development, and for normal development of kidney glomeruli. Plays an important role in wound healing. Signaling is modulated by the formation of heterodimers with PDGFA (By similarity).
Anti-PDGF-B-http://www.stjohnslabs.com/pdgf-b-antibody
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Nuclear hormone receptor. Binds estrogens with an affinity similar to that of ESR1, and activates expression of reporter genes containing estrogen response elements (ERE) in an estrogen-dependent manner . Isoform beta-cx lacks ligand binding ability and has no or only very low ere binding activity resulting in the loss of ligand-dependent transactivation ability. DNA-binding by ESR1 and ESR2 is rapidly lost at 37 degrees Celsius in the absence of ligand while in the presence of 17 beta-estradiol and 4-hydroxy-tamoxifen loss in DNA-binding at elevated temperature is more gradual.
Anti-ERβ-http://www.stjohnslabs.com/erb-antibody
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Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types. Acts as a regulator of neural stem cells quiescence by mediating anchorage of neural stem cells to ependymocytes in the adult subependymal zone: upon cleavage by MMP24, CDH2-mediated anchorage is affected, leading to modulate neural stem cell quiescence. CDH2 may be involved in neuronal recognition mechanism. In hippocampal neurons, may regulate dendritic spine density (By similarity).
Anti-N-cadherin-http://www.stjohnslabs.com/n-cadherin-antibody-p-93283
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Acts as decoy receptor for TNFSF11/RANKL and thereby neutralizes its function in osteoclastogenesis. Inhibits the activation of osteoclasts and promotes osteoclast apoptosis in vitro. Bone homeostasis seems to depend on the local ratio between TNFSF11 and TNFRSF11B. May also play a role in preventing arterial calcification. May act as decoy receptor for TNFSF10/TRAIL and protect against apoptosis. TNFSF10/TRAIL binding blocks the inhibition of osteoclastogenesis.
Anti-OPG-http://www.stjohnslabs.com/opg-antibody
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Non-receptor tyrosine kinase involved in various processes such as cell growth, development, differentiation or histone modifications. Mediates essential signaling events in both innate and adaptive immunity. In the cytoplasm, plays a pivotal role in signal transduction via its association with type I receptors such as growth hormone (GHR), prolactin (PRLR), leptin (LEPR), erythropoietin (EPOR), thrombopoietin (THPO); or type II receptors including IFN-alpha, IFN-beta, IFN-gamma and multiple interleukins . Following ligand-binding to cell surface receptors, phosphorylates specific tyrosine residues on the cytoplasmic tails of the receptor, creating docking sites for STATs proteins . Subsequently, phosphorylates the STATs proteins once they are recruited to the receptor. Phosphorylated STATs then form homodimer or heterodimers and translocate to the nucleus to activate gene transcription. For example, cell stimulation with erythropoietin (EPO) during erythropoiesis leads to JAK2 autophosphorylation, activation, and its association with erythropoietin receptor (EPOR) that becomes phosphorylated in its cytoplasmic domain. Then, STAT5 (STAT5A or STAT5B) is recruited, phosphorylated and activated by JAK2. Once activated, dimerized STAT5 translocates into the nucleus and promotes the transcription of several essential genes involved in the modulation of erythropoiesis. In addition, JAK2 mediates angiotensin-2-induced ARHGEF1 phosphorylation .
Anti-JAK2-http://www.stjohnslabs.com/jak2-antibody-p-92865
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Desmin are class-III intermediate filaments found in muscle cells. In adult striated muscle they form a fibrous network connecting myofibrils to each other and to the plasma membrane from the periphery of the Z-line structures .
Anti-Desmin-http://www.stjohnslabs.com/desmin-antibody-1b12
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Nuclear receptor that binds peroxisome proliferators such as hypolipidemic drugs and fatty acids. Once activated by a ligand, the nuclear receptor binds to DNA specific PPAR response elements (PPRE) and modulates the transcription of its target genes, such as acyl-CoA oxidase. It therefore controls the peroxisomal beta-oxidation pathway of fatty acids. Key regulator of adipocyte differentiation and glucose homeostasis. ARF6 acts as a key regulator of the tissue-specific adipocyte P2 (aP2) enhancer. Acts as a critical regulator of gut homeostasis by suppressing NF-kappa-B-mediated proinflammatory responses. Plays a role in the regulation of cardiovascular circadian rhythms by regulating the transcription of ARNTL/BMAL1 in the blood vessels (By similarity). / PDPK1 activates its transcriptional activity independently of its kinase activity.
Anti-PPAR-γ-http://www.stjohnslabs.com/ppar-g-antibody
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Non-receptor tyrosine kinase involved in various processes such as cell growth, development, or differentiation. Mediates essential signaling events in both innate and adaptive immunity and plays a crucial role in hematopoiesis during T-cells development. In the cytoplasm, plays a pivotal role in signal transduction via its association with type I receptors sharing the common subunit gamma such as IL2R, IL4R, IL7R, IL9R, IL15R and IL21R. Following ligand binding to cell surface receptors, phosphorylates specific tyrosine residues on the cytoplasmic tails of the receptor, creating docking sites for STATs proteins.
Anti-JAK3-http://www.stjohnslabs.com/jak3-antibody-p-92869
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Promotes cell death. Successfully competes for the binding to Bcl-X(L), Bcl-2 and Bcl-W, thereby affecting the level of heterodimerization of these proteins with BAX. Can reverse the death repressor activity of Bcl-X(L), but not that of Bcl-2 (By similarity). Appears to act as a link between growth factor receptor signaling and the apoptotic pathways.
Anti-Bad-http://www.stjohnslabs.com/bad-antibody-p-91313
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AKT1 is one of 3 closely related serine/threonine-protein kinases (AKT1, AKT2 and AKT3) called the AKT kinase, and which regulate many processes including metabolism, proliferation, cell survival, growth and angiogenesis. This is mediated through serine and/or threonine phosphorylation of a range of downstream substrates.AKT is responsible of the regulation of glucose uptake by mediating insulin-induced translocation of the SLC2A4/GLUT4 glucose transporter to the cell surface. Phosphorylation of PTPN1 at 'Ser-50' negatively modulates its phosphatase activity preventing dephosphorylation of the insulin receptor and the attenuation of insulin signaling. Phosphorylation of TBC1D4 triggers the binding of this effector to inhibitory 14-3-3 proteins, which is required for insulin-stimulated glucose transport. AKT regulates also the storage of glucose in the form of glycogen by phosphorylating GSK3A at 'Ser-21' and GSK3B at 'Ser-9', resulting in inhibition of its kinase activity.
Anti-Akt1 -http://www.stjohnslabs.com/akt1-antibody-p-91107
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Occurs in almost all aerobically respiring organisms and serves to protect cells from the toxic effects of hydrogen peroxide. Promotes growth of cells including T-cells, B-cells, myeloid leukemia cells, melanoma cells, mastocytoma cells and normal and transformed fibroblast cells.
Anti-Catalase-http://www.stjohnslabs.com/catalase-antibody-p-
94943
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Electron carrier protein. The oxidized form of the cytochrome c heme group can accept an electron from the heme group of the cytochrome c1 subunit of cytochrome reductase. Cytochrome c then transfers this electron to the cytochrome oxidase complex, the final protein carrier in the mitochondrial electron-transport chain. / Plays a role in apoptosis. Suppression of the anti-apoptotic members or activation of the pro-apoptotic members of the Bcl-2 family leads to altered mitochondrial membrane permeability resulting in release of cytochrome c into the cytosol. Binding of cytochrome c to Apaf-1 triggers the activation of caspase-9, which then accelerates apoptosis by activating other caspases.
Anti-CYCS-http://www.stjohnslabs.com/cycs-antibody-p-99070
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May act as a scaffolding protein within caveolar membranes. Interacts directly with G-protein alpha subunits and can functionally regulate their activity (By similarity). Involved in the costimulatory signal essential for T-cell receptor (TCR)-mediated T-cell activation. Its binding to DPP4 induces T-cell proliferation and NF-kappa-B activation in a T-cell receptor/CD3-dependent manner. Recruits CTNNB1 to caveolar membranes and may regulate CTNNB1-mediated signaling through the Wnt pathway. Negatively regulates TGFB1-mediated activation of SMAD2/3 by mediating the internalization of TGFBR1 from membrane rafts leading to its subsequent degradation .
Anti-Caveolin-1-http://www.stjohnslabs.com/caveolin-1-antibody-p-91510
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Key regulator of entry into cell division that acts as a tumor suppressor. Promotes G0-G1 transition when phosphorylated by CDK3/cyclin-C. Acts as a transcription repressor of E2F1 target genes. The underphosphorylated, active form of RB1 interacts with E2F1 and represses its transcription activity, leading to cell cycle arrest. Directly involved in heterochromatin formation by maintaining overall chromatin structure and, in particular, that of constitutive heterochromatin by stabilizing histone methylation. Recruits and targets histone methyltransferases SUV39H1, KMT5B and KMT5C, leading to epigenetic transcriptional repression. Controls histone H4 'Lys-20' trimethylation. Inhibits the intrinsic kinase activity of TAF1. Mediates transcriptional repression by SMARCA4/BRG1 by recruiting a histone deacetylase (HDAC) complex to the c-FOS promoter. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex.
Anti-Rb-http://www.stjohnslabs.com/rb-antibody-p-94135
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Transcription activator that binds to antioxidant response (ARE) elements in the promoter regions of target genes. Important for the coordinated up-regulation of genes in response to oxidative stress. May be involved in the transcriptional activation of genes of the beta-globin cluster by mediating enhancer activity of hypersensitive site 2 of the beta-globin locus control region.
Anti-Nrf2-http://www.stjohnslabs.com/nrf2-antibody-p-95061
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Type II collagen is specific for cartilaginous tissues. It is essential for the normal embryonic development of the skeleton, for linear growth and for the ability of cartilage to resist compressive forces.
Anti-COL2A1 -http://www.stjohnslabs.com/col2a1-antibody-p-91775
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Involved in the regulation of apoptosis versus cell survival, and in the maintenance of viability but not of proliferation. Mediates its effects by interactions with a number of other regulators of apoptosis. Isoform 1 inhibits apoptosis. Isoform 2 promotes apoptosis.
Anti-Mcl-1-http://www.stjohnslabs.com/mcl-1-antibody-p-94947
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Multitasking protein that has dual roles in promoting cell proliferation and preventing apoptosis. Component of a chromosome passage protein complex (CPC) which is essential for chromosome alignment and segregation during mitosis and cytokinesis. Acts as an important regulator of the localization of this complex; directs CPC movement to different locations from the inner centromere during prometaphase to midbody during cytokinesis and participates in the organization of the center spindle by associating with polymerized microtubules. The complex with RAN plays a role in mitotic spindle formation by serving as a physical scaffold to help deliver the RAN effector molecule TPX2 to microtubules. May counteract a default induction of apoptosis in G2/M phase. The acetylated form represses STAT3 transactivation of target gene promoters. May play a role in neoplasia. Inhibitor of CASP3 and CASP7. Isoform 2 and isoform 3 do not appear to play vital roles in mitosis. Isoform 3 shows a marked reduction in its anti-apoptotic effects when compared with the displayed wild-type isoform.
Anti-Survivin-http://www.stjohnslabs.com/survivin-antibody-p-94468
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Glycolytic enzyme that catalyzes the transfer of a phosphoryl group from phosphoenolpyruvate (PEP) to ADP, generating ATP. Stimulates POU5F1-mediated transcriptional activation. Plays a general role in caspase independent cell death of tumor cells. The ratio betwween the highly active tetrameric form and nearly inactive dimeric form determines whether glucose carbons are channeled to biosynthetic processes or used for glycolytic ATP production. The transition between the 2 forms contributes to the control of glycolysis and is important for tumor cell proliferation and survival. / ATP + pyruvate = ADP + phosphoenolpyruvate. / Mg2+ / K+ / Isoform M2 is allosterically activated by D-fructose 1, 6-bisphosphate (FBP). Inhibited by oxalate and 3, 3', 5-triiodo-L-thyronine (T3). The activity of the tetrameric form is inhibited by PML. Selective binding to tyrosine-phosphorylated peptides releases the allosteric activator FBP, leading to inhibition of PKM enzymatic activity, this diverts glucose metabolites from energy production to anabolic processes when cells are stimulated by certain growth factors. Glycolytic flux are highly dependent on de novo biosynthesis of serine and glycine, and serine is a natural ligand and allosteric activator of isoform M2.
Anti-PKM2-http://www.stjohnslabs.com/pkm2-antibody-p-93954
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Cytokine that binds to TNFRSF6/FAS, a receptor that transduces the apoptotic signal into cells. May be involved in cytotoxic T-cell mediated apoptosis and in T-cell development. TNFRSF6/FAS-mediated apoptosis may have a role in the induction of peripheral tolerance, in the antigen-stimulated suicide of mature T-cells, or both. Binding to the decoy receptor TNFRSF6B/DcR3 modulates its effects. / The FasL intracellular domain (FasL ICD) cytoplasmic form induces gene transcription inhibition.
Anti-FAS-L-http://www.stjohnslabs.com/fas-l-antibody
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Transcription factor involved in the induction of oxygen regulated genes. Binds to core DNA sequence 5'-[AG]CGTG-3' within the hypoxia response element (HRE) of target gene promoters. Regulates the vascular endothelial growth factor (VEGF) expression and seems to be implicated in the development of blood vessels and the tubular system of lung. May also play a role in the formation of the endothelium that gives rise to the blood brain barrier. Potent activator of the Tie-2 tyrosine kinase expression. Activation seems to require recruitment of transcriptional coactivators such as CREBPB and probably EP300. Interaction with redox regulatory protein APEX seems to activate CTAD.
Anti-EPAS-1-http://www.stjohnslabs.com/epas-1-antibody
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Serine/threonine kinase which acts as an essential component of the MAP kinase signal transduction pathway. MAPK14 is one of the four p38 MAPKs which play an important role in the cascades of cellular responses evoked by extracellular stimuli such as proinflammatory cytokines or physical stress leading to direct activation of transcription factors. Accordingly, p38 MAPKs phosphorylate a broad range of proteins and it has been estimated that they may have approximately 200 to 300 substrates each. Some of the targets are downstream kinases which are activated through phosphorylation and further phosphorylate additional targets. RPS6KA5/MSK1 and RPS6KA4/MSK2 can directly phosphorylate and activate transcription factors such as CREB1, ATF1, the NF-kappa-B isoform RELA/NFKB3, STAT1 and STAT3, but can also phosphorylate histone H3 and the nucleosomal protein HMGN1. RPS6KA5/MSK1 and RPS6KA4/MSK2 play important roles in the rapid induction of immediate-early genes in response to stress or mitogenic stimuli, either by inducing chromatin remodeling or by recruiting the transcription machinery.
Anti-p38-http://www.stjohnslabs.com/p38-antibody-p-93734
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NF-kappa-B is a pleiotropic transcription factor present in almost all cell types and is the endpoint of a series of signal transduction events that are initiated by a vast array of stimuli related to many biological processes such as inflammation, immunity, differentiation, cell growth, tumorigenesis and apoptosis. NF-kappa-B is a homo- or heterodimeric complex formed by the Rel-like domain-containing proteins RELA/p65, RELB, NFKB1/p105, NFKB1/p50, REL and NFKB2/p52 and the heterodimeric p65-p50 complex appears to be most abundant one. The dimers bind at kappa-B sites in the DNA of their target genes and the individual dimers have distinct preferences for different kappa-B sites that they can bind with distinguishable affinity and specificity. Different dimer combinations act as transcriptional activators or repressors, respectively. NF-kappa-B is controlled by various mechanisms of post-translational modification and subcellular compartmentalization as well as by interactions with other cofactors or corepressors. NF-kappa-B complexes are held in the cytoplasm in an inactive state complexed with members of the NF-kappa-B inhibitor (I-kappa-B) family. In a conventional activation pathway, I-kappa-B is phosphorylated by I-kappa-B kinases (IKKs) in response to different activators, subsequently degraded thus liberating the active NF-kappa-B complex which translocates to the nucleus. NF-kappa-B heterodimeric p65-p50 and p65-c-Rel complexes are transcriptional activators. The NF-kappa-B p65-p65 complex appears to be involved in invasin-mediated activation of IL-8 expression. The inhibitory effect of I-kappa-B upon NF-kappa-B the cytoplasm is exerted primarily through the interaction with p65. p65 shows a weak DNA-binding site which could contribute directly to DNA binding in the NF-kappa-B complex. Associates with chromatin at the NF-kappa-B promoter region via association with DDX1. Essential for cytokine gene expression in T-cells.
Anti-NFκB-p65-http://www.stjohnslabs.com/nfkb-p65-antibody-p-93372
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Important regulator of cell cycle progression. Involved in G1 arrest. Potent inhibitor of cyclin E- and cyclin A-CDK2 complexes. Forms a complex with cyclin type D-CDK4 complexes and is involved in the assembly, stability, and modulation of CCND1-CDK4 complex activation. Acts either as an inhibitor or an activator of cyclin type D-CDK4 complexes depending on its phosphorylation state and/or stoichometry.
Anti-p27-http://www.stjohnslabs.com/p27-antibody-p-93722
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Acts as decoy receptor for TNFSF11/RANKL and thereby neutralizes its function in osteoclastogenesis. Inhibits the activation of osteoclasts and promotes osteoclast apoptosis in vitro. Bone homeostasis seems to depend on the local ratio between TNFSF11 and TNFRSF11B. May also play a role in preventing arterial calcification. May act as decoy receptor for TNFSF10/TRAIL and protect against apoptosis. TNFSF10/TRAIL binding blocks the inhibition of osteoclastogenesis.
Anti-OPG-http://www.stjohnslabs.com/opg-antibody
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Non-receptor tyrosine kinase involved in various processes such as cell growth, development, differentiation or histone modifications. Mediates essential signaling events in both innate and adaptive immunity. In the cytoplasm, plays a pivotal role in signal transduction via its association with type I receptors such as growth hormone (GHR), prolactin (PRLR), leptin (LEPR), erythropoietin (EPOR), thrombopoietin (THPO); or type II receptors including IFN-alpha, IFN-beta, IFN-gamma and multiple interleukins . Following ligand-binding to cell surface receptors, phosphorylates specific tyrosine residues on the cytoplasmic tails of the receptor, creating docking sites for STATs proteins . Subsequently, phosphorylates the STATs proteins once they are recruited to the receptor. Phosphorylated STATs then form homodimer or heterodimers and translocate to the nucleus to activate gene transcription. For example, cell stimulation with erythropoietin (EPO) during erythropoiesis leads to JAK2 autophosphorylation, activation, and its association with erythropoietin receptor (EPOR) that becomes phosphorylated in its cytoplasmic domain. Then, STAT5 (STAT5A or STAT5B) is recruited, phosphorylated and activated by JAK2. Once activated, dimerized STAT5 translocates into the nucleus and promotes the transcription of several essential genes involved in the modulation of erythropoiesis. In addition, JAK2 mediates angiotensin-2-induced ARHGEF1 phosphorylation .
Anti-JAK2-http://www.stjohnslabs.com/jak2-antibody-p-92865
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Desmin are class-III intermediate filaments found in muscle cells. In adult striated muscle they form a fibrous network connecting myofibrils to each other and to the plasma membrane from the periphery of the Z-line structures .
Anti-Desmin-http://www.stjohnslabs.com/desmin-antibody-1b12
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Nuclear receptor that binds peroxisome proliferators such as hypolipidemic drugs and fatty acids. Once activated by a ligand, the nuclear receptor binds to DNA specific PPAR response elements (PPRE) and modulates the transcription of its target genes, such as acyl-CoA oxidase. It therefore controls the peroxisomal beta-oxidation pathway of fatty acids. Key regulator of adipocyte differentiation and glucose homeostasis. ARF6 acts as a key regulator of the tissue-specific adipocyte P2 (aP2) enhancer. Acts as a critical regulator of gut homeostasis by suppressing NF-kappa-B-mediated proinflammatory responses. Plays a role in the regulation of cardiovascular circadian rhythms by regulating the transcription of ARNTL/BMAL1 in the blood vessels (By similarity). / PDPK1 activates its transcriptional activity independently of its kinase activity.
Anti-PPAR-γ-http://www.stjohnslabs.com/ppar-g-antibody
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Non-receptor tyrosine kinase involved in various processes such as cell growth, development, or differentiation. Mediates essential signaling events in both innate and adaptive immunity and plays a crucial role in hematopoiesis during T-cells development. In the cytoplasm, plays a pivotal role in signal transduction via its association with type I receptors sharing the common subunit gamma such as IL2R, IL4R, IL7R, IL9R, IL15R and IL21R. Following ligand binding to cell surface receptors, phosphorylates specific tyrosine residues on the cytoplasmic tails of the receptor, creating docking sites for STATs proteins.
Anti-JAK3-http://www.stjohnslabs.com/jak3-antibody-p-92869
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Promotes cell death. Successfully competes for the binding to Bcl-X(L), Bcl-2 and Bcl-W, thereby affecting the level of heterodimerization of these proteins with BAX. Can reverse the death repressor activity of Bcl-X(L), but not that of Bcl-2 (By similarity). Appears to act as a link between growth factor receptor signaling and the apoptotic pathways.
Anti-Bad-http://www.stjohnslabs.com/bad-antibody-p-91313
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AKT1 is one of 3 closely related serine/threonine-protein kinases (AKT1, AKT2 and AKT3) called the AKT kinase, and which regulate many processes including metabolism, proliferation, cell survival, growth and angiogenesis. This is mediated through serine and/or threonine phosphorylation of a range of downstream substrates.AKT is responsible of the regulation of glucose uptake by mediating insulin-induced translocation of the SLC2A4/GLUT4 glucose transporter to the cell surface. Phosphorylation of PTPN1 at 'Ser-50' negatively modulates its phosphatase activity preventing dephosphorylation of the insulin receptor and the attenuation of insulin signaling. Phosphorylation of TBC1D4 triggers the binding of this effector to inhibitory 14-3-3 proteins, which is required for insulin-stimulated glucose transport. AKT regulates also the storage of glucose in the form of glycogen by phosphorylating GSK3A at 'Ser-21' and GSK3B at 'Ser-9', resulting in inhibition of its kinase activity.
Anti-Akt1 -http://www.stjohnslabs.com/akt1-antibody-p-91107
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Occurs in almost all aerobically respiring organisms and serves to protect cells from the toxic effects of hydrogen peroxide. Promotes growth of cells including T-cells, B-cells, myeloid leukemia cells, melanoma cells, mastocytoma cells and normal and transformed fibroblast cells.
Anti-Catalase-http://www.stjohnslabs.com/catalase-antibody-p-
94943
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Electron carrier protein. The oxidized form of the cytochrome c heme group can accept an electron from the heme group of the cytochrome c1 subunit of cytochrome reductase. Cytochrome c then transfers this electron to the cytochrome oxidase complex, the final protein carrier in the mitochondrial electron-transport chain. / Plays a role in apoptosis. Suppression of the anti-apoptotic members or activation of the pro-apoptotic members of the Bcl-2 family leads to altered mitochondrial membrane permeability resulting in release of cytochrome c into the cytosol. Binding of cytochrome c to Apaf-1 triggers the activation of caspase-9, which then accelerates apoptosis by activating other caspases.
Anti-CYCS-http://www.stjohnslabs.com/cycs-antibody-p-99070
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May act as a scaffolding protein within caveolar membranes. Interacts directly with G-protein alpha subunits and can functionally regulate their activity (By similarity). Involved in the costimulatory signal essential for T-cell receptor (TCR)-mediated T-cell activation. Its binding to DPP4 induces T-cell proliferation and NF-kappa-B activation in a T-cell receptor/CD3-dependent manner. Recruits CTNNB1 to caveolar membranes and may regulate CTNNB1-mediated signaling through the Wnt pathway. Negatively regulates TGFB1-mediated activation of SMAD2/3 by mediating the internalization of TGFBR1 from membrane rafts leading to its subsequent degradation .
Anti-Caveolin-1-http://www.stjohnslabs.com/caveolin-1-antibody-p-91510
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Key regulator of entry into cell division that acts as a tumor suppressor. Promotes G0-G1 transition when phosphorylated by CDK3/cyclin-C. Acts as a transcription repressor of E2F1 target genes. The underphosphorylated, active form of RB1 interacts with E2F1 and represses its transcription activity, leading to cell cycle arrest. Directly involved in heterochromatin formation by maintaining overall chromatin structure and, in particular, that of constitutive heterochromatin by stabilizing histone methylation. Recruits and targets histone methyltransferases SUV39H1, KMT5B and KMT5C, leading to epigenetic transcriptional repression. Controls histone H4 'Lys-20' trimethylation. Inhibits the intrinsic kinase activity of TAF1. Mediates transcriptional repression by SMARCA4/BRG1 by recruiting a histone deacetylase (HDAC) complex to the c-FOS promoter. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex.
Anti-Rb-http://www.stjohnslabs.com/rb-antibody-p-94135
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Transcription activator that binds to antioxidant response (ARE) elements in the promoter regions of target genes. Important for the coordinated up-regulation of genes in response to oxidative stress. May be involved in the transcriptional activation of genes of the beta-globin cluster by mediating enhancer activity of hypersensitive site 2 of the beta-globin locus control region.
Anti-Nrf2-http://www.stjohnslabs.com/nrf2-antibody-p-95061
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Type II collagen is specific for cartilaginous tissues. It is essential for the normal embryonic development of the skeleton, for linear growth and for the ability of cartilage to resist compressive forces.
Anti-COL2A1 -http://www.stjohnslabs.com/col2a1-antibody-p-91775
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Involved in the regulation of apoptosis versus cell survival, and in the maintenance of viability but not of proliferation. Mediates its effects by interactions with a number of other regulators of apoptosis. Isoform 1 inhibits apoptosis. Isoform 2 promotes apoptosis.
Anti-Mcl-1-http://www.stjohnslabs.com/mcl-1-antibody-p-94947
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Multitasking protein that has dual roles in promoting cell proliferation and preventing apoptosis. Component of a chromosome passage protein complex (CPC) which is essential for chromosome alignment and segregation during mitosis and cytokinesis. Acts as an important regulator of the localization of this complex; directs CPC movement to different locations from the inner centromere during prometaphase to midbody during cytokinesis and participates in the organization of the center spindle by associating with polymerized microtubules. The complex with RAN plays a role in mitotic spindle formation by serving as a physical scaffold to help deliver the RAN effector molecule TPX2 to microtubules. May counteract a default induction of apoptosis in G2/M phase. The acetylated form represses STAT3 transactivation of target gene promoters. May play a role in neoplasia. Inhibitor of CASP3 and CASP7. Isoform 2 and isoform 3 do not appear to play vital roles in mitosis. Isoform 3 shows a marked reduction in its anti-apoptotic effects when compared with the displayed wild-type isoform.
Anti-Survivin-http://www.stjohnslabs.com/survivin-antibody-p-94468
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Glycolytic enzyme that catalyzes the transfer of a phosphoryl group from phosphoenolpyruvate (PEP) to ADP, generating ATP. Stimulates POU5F1-mediated transcriptional activation. Plays a general role in caspase independent cell death of tumor cells. The ratio betwween the highly active tetrameric form and nearly inactive dimeric form determines whether glucose carbons are channeled to biosynthetic processes or used for glycolytic ATP production. The transition between the 2 forms contributes to the control of glycolysis and is important for tumor cell proliferation and survival. / ATP + pyruvate = ADP + phosphoenolpyruvate. / Mg2+ / K+ / Isoform M2 is allosterically activated by D-fructose 1, 6-bisphosphate (FBP). Inhibited by oxalate and 3, 3', 5-triiodo-L-thyronine (T3). The activity of the tetrameric form is inhibited by PML. Selective binding to tyrosine-phosphorylated peptides releases the allosteric activator FBP, leading to inhibition of PKM enzymatic activity, this diverts glucose metabolites from energy production to anabolic processes when cells are stimulated by certain growth factors. Glycolytic flux are highly dependent on de novo biosynthesis of serine and glycine, and serine is a natural ligand and allosteric activator of isoform M2.
Anti-PKM2-http://www.stjohnslabs.com/pkm2-antibody-p-93954
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Cytokine that binds to TNFRSF6/FAS, a receptor that transduces the apoptotic signal into cells. May be involved in cytotoxic T-cell mediated apoptosis and in T-cell development. TNFRSF6/FAS-mediated apoptosis may have a role in the induction of peripheral tolerance, in the antigen-stimulated suicide of mature T-cells, or both. Binding to the decoy receptor TNFRSF6B/DcR3 modulates its effects. / The FasL intracellular domain (FasL ICD) cytoplasmic form induces gene transcription inhibition.
Anti-FAS-L-http://www.stjohnslabs.com/fas-l-antibody
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Transcription factor involved in the induction of oxygen regulated genes. Binds to core DNA sequence 5'-[AG]CGTG-3' within the hypoxia response element (HRE) of target gene promoters. Regulates the vascular endothelial growth factor (VEGF) expression and seems to be implicated in the development of blood vessels and the tubular system of lung. May also play a role in the formation of the endothelium that gives rise to the blood brain barrier. Potent activator of the Tie-2 tyrosine kinase expression. Activation seems to require recruitment of transcriptional coactivators such as CREBPB and probably EP300. Interaction with redox regulatory protein APEX seems to activate CTAD.
Anti-EPAS-1-http://www.stjohnslabs.com/epas-1-antibody
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Serine/threonine kinase which acts as an essential component of the MAP kinase signal transduction pathway. MAPK14 is one of the four p38 MAPKs which play an important role in the cascades of cellular responses evoked by extracellular stimuli such as proinflammatory cytokines or physical stress leading to direct activation of transcription factors. Accordingly, p38 MAPKs phosphorylate a broad range of proteins and it has been estimated that they may have approximately 200 to 300 substrates each. Some of the targets are downstream kinases which are activated through phosphorylation and further phosphorylate additional targets. RPS6KA5/MSK1 and RPS6KA4/MSK2 can directly phosphorylate and activate transcription factors such as CREB1, ATF1, the NF-kappa-B isoform RELA/NFKB3, STAT1 and STAT3, but can also phosphorylate histone H3 and the nucleosomal protein HMGN1. RPS6KA5/MSK1 and RPS6KA4/MSK2 play important roles in the rapid induction of immediate-early genes in response to stress or mitogenic stimuli, either by inducing chromatin remodeling or by recruiting the transcription machinery.
Anti-p38-http://www.stjohnslabs.com/p38-antibody-p-93734
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NF-kappa-B is a pleiotropic transcription factor present in almost all cell types and is the endpoint of a series of signal transduction events that are initiated by a vast array of stimuli related to many biological processes such as inflammation, immunity, differentiation, cell growth, tumorigenesis and apoptosis. NF-kappa-B is a homo- or heterodimeric complex formed by the Rel-like domain-containing proteins RELA/p65, RELB, NFKB1/p105, NFKB1/p50, REL and NFKB2/p52 and the heterodimeric p65-p50 complex appears to be most abundant one. The dimers bind at kappa-B sites in the DNA of their target genes and the individual dimers have distinct preferences for different kappa-B sites that they can bind with distinguishable affinity and specificity. Different dimer combinations act as transcriptional activators or repressors, respectively. NF-kappa-B is controlled by various mechanisms of post-translational modification and subcellular compartmentalization as well as by interactions with other cofactors or corepressors. NF-kappa-B complexes are held in the cytoplasm in an inactive state complexed with members of the NF-kappa-B inhibitor (I-kappa-B) family. In a conventional activation pathway, I-kappa-B is phosphorylated by I-kappa-B kinases (IKKs) in response to different activators, subsequently degraded thus liberating the active NF-kappa-B complex which translocates to the nucleus. NF-kappa-B heterodimeric p65-p50 and p65-c-Rel complexes are transcriptional activators. The NF-kappa-B p65-p65 complex appears to be involved in invasin-mediated activation of IL-8 expression. The inhibitory effect of I-kappa-B upon NF-kappa-B the cytoplasm is exerted primarily through the interaction with p65. p65 shows a weak DNA-binding site which could contribute directly to DNA binding in the NF-kappa-B complex. Associates with chromatin at the NF-kappa-B promoter region via association with DDX1. Essential for cytokine gene expression in T-cells.
Anti-NFκB-p65-http://www.stjohnslabs.com/nfkb-p65-antibody-p-93372
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Important regulator of cell cycle progression. Involved in G1 arrest. Potent inhibitor of cyclin E- and cyclin A-CDK2 complexes. Forms a complex with cyclin type D-CDK4 complexes and is involved in the assembly, stability, and modulation of CCND1-CDK4 complex activation. Acts either as an inhibitor or an activator of cyclin type D-CDK4 complexes depending on its phosphorylation state and/or stoichometry.
Anti-p27-http://www.stjohnslabs.com/p27-antibody-p-93722
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Serine/threonine kinase which acts as an essential component of the MAP kinase signal transduction pathway. MAPK14 is one of the four p38 MAPKs which play an important role in the cascades of cellular responses evoked by extracellular stimuli such as proinflammatory cytokines or physical stress leading to direct activation of transcription factors. Accordingly, p38 MAPKs phosphorylate a broad range of proteins and it has been estimated that they may have approximately 200 to 300 substrates each. Some of the targets are downstream kinases which are activated through phosphorylation and further phosphorylate additional targets. RPS6KA5/MSK1 and RPS6KA4/MSK2 can directly phosphorylate and activate transcription factors such as CREB1, ATF1, the NF-kappa-B isoform RELA/NFKB3, STAT1 and STAT3, but can also phosphorylate histone H3 and the nucleosomal protein HMGN1. RPS6KA5/MSK1 and RPS6KA4/MSK2 play important roles in the rapid induction of immediate-early genes in response to stress or mitogenic stimuli, either by inducing chromatin remodeling or by recruiting the transcription machinery. On the other hand, two other kinase targets, MAPKAPK2/MK2 and MAPKAPK3/MK3, participate in the control of gene expression mostly at the post-transcriptional level, by phosphorylating ZFP36 (tristetraprolin) and ELAVL1, and by regulating EEF2K, which is important for the elongation of mRNA during translation.
Anti-p53-http://www.stjohnslabs.com/p53-antibody-p-93748
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Produces nitric oxide (NO) which is implicated in vascular smooth muscle relaxation through a cGMP-mediated signal transduction pathway. NO mediates vascular endothelial growth factor (VEGF)-induced angiogenesis in coronary vessels and promotes blood clotting through the activation of platelets. / Isoform eNOS13C: Lacks eNOS activity, dominant-negative form that may down-regulate eNOS activity by forming heterodimers with isoform 1.
Anti-NOS3-http://www.stjohnslabs.com/nos3-antibody-p-93424
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Calcium-activated, phospholipid- and diacylglycerol (DAG)-dependent serine/threonine-protein kinase that is involved in positive and negative regulation of cell proliferation, apoptosis, differentiation, migration and adhesion, tumorigenesis, cardiac hypertrophy, angiogenesis, platelet function and inflammation, by directly phosphorylating targets such as RAF1, BCL2, CSPG4, TNNT2/CTNT, or activating signaling cascade involving MAPK1/3 (ERK1/2) and RAP1GAP. Involved in cell proliferation and cell growth arrest by positive and negative regulation of the cell cycle.
Anti-PKC -http://www.stjohnslabs.com/pkc-antibody
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Adapter protein involved in the Toll-like receptor and IL-1 receptor signaling pathway in the innate immune response. Acts via IRAK1, IRAK2, IRF7 and TRAF6, leading to NF-kappa-B activation, cytokine secretion and the inflammatory response. Increases IL-8 transcription. Involved in IL-18-mediated signaling pathway. Activates IRF1 resulting in its rapid migration into the nucleus to mediate an efficient induction of IFN-beta, NOS2/INOS, and IL12A genes. MyD88-mediated signaling in intestinal epithelial cells is crucial for maintenance of gut homeostasis and controls the expression of the antimicrobial lectin REG3G in the small intestine.
Anti-MyD88-http://www.stjohnslabs.com/myd88-antibody-p-93236
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Phosphoinositide-3-kinase (PI3K) that phosphorylates PtdIns (Phosphatidylinositol), PtdIns4P (Phosphatidylinositol 4-phosphate) and PtdIns(4, 5)P2 (Phosphatidylinositol 4, 5-bisphosphate) to generate phosphatidylinositol 3, 4, 5-trisphosphate (PIP3). PIP3 plays a key role by recruiting PH domain-containing proteins to the membrane, including AKT1 and PDPK1, activating signaling cascades involved in cell growth, survival, proliferation, motility and morphology. Participates in cellular signaling in response to various growth factors. Involved in the activation of AKT1 upon stimulation by receptor tyrosine kinases ligands such as EGF, insulin, IGF1, VEGFA and PDGF. Involved in signaling via insulin-receptor substrate (IRS) proteins. Essential in endothelial cell migration during vascular development through VEGFA signaling, possibly by regulating RhoA activity. Required for lymphatic vasculature development, possibly by binding to RAS and by activation by EGF and FGF2, but not by PDGF.
Anti-PI 3-kinase p110α-http://www.stjohnslabs.com/pi-3-kinase-p110a-antibody
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Immunohistochemistry Antibody Validation Report for Anti-NFκB-p105/p50 Antibo...St John's Laboratory Ltd
NF-kappa-B is a pleiotropic transcription factor present in almost all cell types and is the endpoint of a series of signal transduction events that are initiated by a vast array of stimuli related to many biological processes such as inflammation, immunity, differentiation, cell growth, tumorigenesis and apoptosis. NF-kappa-B is a homo- or heterodimeric complex formed by the Rel-like domain-containing proteins RELA/p65, RELB, NFKB1/p105, NFKB1/p50, REL and NFKB2/p52 and the heterodimeric p65-p50 complex appears to be most abundant one. The dimers bind at kappa-B sites in the DNA of their target genes and the individual dimers have distinct preferences for different kappa-B sites that they can bind with distinguishable affinity and specificity. Different dimer combinations act as transcriptional activators or repressors, respectively. NF-kappa-B is controlled by various mechanisms of post-translational modification and subcellular compartmentalization as well as by interactions with other cofactors or corepressors.
Anti-NFκB-p105/p50-http://www.stjohnslabs.com/nfkb-p105p50-antibody-p-93365
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Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types. Acts as a regulator of neural stem cells quiescence by mediating anchorage of neural stem cells to ependymocytes in the adult subependymal zone: upon cleavage by MMP24, CDH2-mediated anchorage is affected, leading to modulate neural stem cell quiescence. CDH2 may be involved in neuronal recognition mechanism. In hippocampal neurons, may regulate dendritic spine density (By similarity).
Anti-N-cadherin -http://www.stjohnslabs.com/n-cadherin-antibody-p-93283
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Immunohistochemistry Antibody Validation Report for Anti-NFκB-p105/p50 Antibo...St John's Laboratory Ltd
NF-kappa-B is a pleiotropic transcription factor present in almost all cell types and is the endpoint of a series of signal transduction events that are initiated by a vast array of stimuli related to many biological processes such as inflammation, immunity, differentiation, cell growth, tumorigenesis and apoptosis. NF-kappa-B is a homo- or heterodimeric complex formed by the Rel-like domain-containing proteins RELA/p65, RELB, NFKB1/p105, NFKB1/p50, REL and NFKB2/p52 and the heterodimeric p65-p50 complex appears to be most abundant one. The dimers bind at kappa-B sites in the DNA of their target genes and the individual dimers have distinct preferences for different kappa-B sites that they can bind with distinguishable affinity and specificity. Different dimer combinations act as transcriptional activators or repressors, respectively. NF-kappa-B is controlled by various mechanisms of post-translational modification and subcellular compartmentalization as well as by interactions with other cofactors or corepressors.
Anti-NFκB-p105/p50-http://www.stjohnslabs.com/nfkb-p105p50-antibody
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Binds to activated (phosphorylated) protein-Tyr kinases, through its SH2 domain, and acts as an adapter, mediating the association of the p110 catalytic unit to the plasma membrane. Necessary for the insulin-stimulated increase in glucose uptake and glycogen synthesis in insulin-sensitive tissues. Plays an important role in signaling in response to FGFR1, FGFR2, FGFR3, FGFR4, KITLG/SCF, KIT, PDGFRA and PDGFRB. Likewise, plays a role in ITGB2 signaling . Modulates the cellular response to ER stress by promoting nuclear translocation of XBP1 isoform 2 in a ER stress-and/or insulin-dependent manner during metabolic overloading in the liver and hence plays a role in glucose tolerance improvement.
Anti-PI 3-kinase p85α/γ-http://www.stjohnslabs.com/pi-3-kinase-p85ag-antibody
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Binds to activated (phosphorylated) protein-Tyr kinases, through its SH2 domain, and acts as an adapter, mediating the association of the p110 catalytic unit to the plasma membrane. Necessary for the insulin-stimulated increase in glucose uptake and glycogen synthesis in insulin-sensitive tissues. Plays an important role in signaling in response to FGFR1, FGFR2, FGFR3, FGFR4, KITLG/SCF, KIT, PDGFRA and PDGFRB. Likewise, plays a role in ITGB2 signaling . Modulates the cellular response to ER stress by promoting nuclear translocation of XBP1 isoform 2 in a ER stress-and/or insulin-dependent manner during metabolic overloading in the liver and hence plays a role in glucose tolerance improvement.
Anti-PI 3-kinase p85α-http://www.stjohnslabs.com/pi-3-kinase-p85a-antibody
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Serine/threonine-protein kinase that acts downstream of mTOR signaling in response to growth factors and nutrients to promote cell proliferation, cell growth and cell cycle progression. Regulates protein synthesis through phosphorylation of EIF4B, RPS6 and EEF2K, and contributes to cell survival by repressing the pro-apoptotic function of BAD. Under conditions of nutrient depletion, the inactive form associates with the EIF3 translation initiation complex. Upon mitogenic stimulation, phosphorylation by the mammalian target of rapamycin complex 1 (mTORC1) leads to dissociation from the EIF3 complex and activation.
Anti-p70 S6 kinase α-http://www.stjohnslabs.com/p70-s6-kinase-a-antibody-p-93776
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May be the important intermediate by which p53/TP53 mediates its role as an inhibitor of cellular proliferation in response to DNA damage. Binds to and inhibits cyclin-dependent kinase activity, preventing phosphorylation of critical cyclin-dependent kinase substrates and blocking cell cycle progression. Functions in the nuclear localization and assembly of cyclin D-CDK4 complex and promotes its kinase activity towards RB1. At higher stoichiometric ratios, inhibits the kinase activity of the cyclin D-CDK4 complex.
Anti-p21-http://www.stjohnslabs.com/p21-antibody
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Produces nitric oxide (NO) which is a messenger molecule with diverse functions throughout the body . In macrophages, NO mediates tumoricidal and bactericidal actions. Also has nitrosylase activity and mediates cysteine S-nitrosylation of cytoplasmic target proteins such PTGS2/COX2 (By similarity). As component of the iNOS-S100A8/9 transnitrosylase complex involved in the selective inflammatory stimulus-dependent S-nitrosylation of GAPDH on 'Cys-247' implicated in regulation of the GAIT complex activity and probably multiple targets including ANXA5, EZR, MSN and VIM . Involved in inflammation, enhances the synthesis of proinflammatory mediators such as IL6 and IL8 .
Anti-NOS2-http://www.stjohnslabs.com/nos2-antibody-p-93419
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Ligand-activated transcription factor. Key regulator of lipid metabolism. Activated by the endogenous ligand 1-palmitoyl-2-oleoyl-sn-glycerol-3-phosphocholine (16:0/18:1-GPC). Activated by oleylethanolamide, a naturally occurring lipid that regulates satiety. Receptor for peroxisome proliferators such as hypolipidemic drugs and fatty acids. Regulates the peroxisomal beta-oxidation pathway of fatty acids. Functions as transcription activator for the ACOX1 and P450 genes. Transactivation activity requires heterodimerization with RXRA and is antagonized by NR2C2. May be required for the propagation of clock information to metabolic pathways regulated by PER2.
Anti-PPAR-α-http://www.stjohnslabs.com/ppar-a-antibody
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Phosphoinositide-3-kinase (PI3K) that phosphorylates PtdIns (Phosphatidylinositol), PtdIns4P (Phosphatidylinositol 4-phosphate) and PtdIns(4, 5)P2 (Phosphatidylinositol 4, 5-bisphosphate) to generate phosphatidylinositol 3, 4, 5-trisphosphate (PIP3). PIP3 plays a key role by recruiting PH domain-containing proteins to the membrane, including AKT1 and PDPK1, activating signaling cascades involved in cell growth, survival, proliferation, motility and morphology. Participates in cellular signaling in response to various growth factors. Involved in the activation of AKT1 upon stimulation by receptor tyrosine kinases ligands such as EGF, insulin, IGF1, VEGFA and PDGF.
Anti-PI 3-kinase p110α -http://www.stjohnslabs.com/pi-3-kinase-p110a-antibody
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Serine/threonine kinase which acts as an essential component of the MAP kinase signal transduction pathway. MAPK14 is one of the four p38 MAPKs which play an important role in the cascades of cellular responses evoked by extracellular stimuli such as proinflammatory cytokines or physical stress leading to direct activation of transcription factors. Accordingly, p38 MAPKs phosphorylate a broad range of proteins and it has been estimated that they may have approximately 200 to 300 substrates each. Some of the targets are downstream kinases which are activated through phosphorylation and further phosphorylate additional targets.
Anti-p38 -http://www.stjohnslabs.com/p38-antibody-p-93734
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Metabolic-stress sensing protein kinase that phosphorylates the alpha subunit of eukaryotic translation initiation factor 2 (eIF-2-alpha/EIF2S1) on 'Ser-52' during the unfolded protein response (UPR) and in response to low amino acid availability. Converts phosphorylated eIF-2-alpha/EIF2S1 either in a global protein synthesis inhibitor, leading to a reduced overall utilization of amino acids, or to a translation initiation activator of specific mRNAs, such as the transcriptional activator ATF4, and hence allowing ATF4-mediated reprogramming of amino acid biosynthetic gene expression to alleviate nutrient depletion.
Anti-PERK -http://www.stjohnslabs.com/perk-antibody
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Acts as decoy receptor for TNFSF11/RANKL and thereby neutralizes its function in osteoclastogenesis. Inhibits the activation of osteoclasts and promotes osteoclast apoptosis in vitro. Bone homeostasis seems to depend on the local ratio between TNFSF11 and TNFRSF11B. May also play a role in preventing arterial calcification. May act as decoy receptor for TNFSF10/TRAIL and protect against apoptosis. TNFSF10/TRAIL binding blocks the inhibition of osteoclastogenesis.
Anti-OPG -http://www.stjohnslabs.com/opg-antibody
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Transcriptional regulator which can act both as a coactivator and a corepressor and is the critical downstream regulatory target in the Hippo signaling pathway that plays a pivotal role in organ size control and tumor suppression by restricting proliferation and promoting apoptosis . The core of this pathway is composed of a kinase cascade wherein STK3/MST2 and STK4/MST1, in complex with its regulatory protein SAV1, phosphorylates and activates LATS1/2 in complex with its regulatory protein MOB1, which in turn phosphorylates and inactivates YAP1 oncoprotein and WWTR1/TAZ . Plays a key role in tissue tension and 3D tissue shape by regulating cortical actomyosin network formation. Acts via ARHGAP18, a Rho GTPase activating protein that suppresses F-actin polymerization . Plays a key role to control cell proliferation in response to cell contact. Phosphorylation of YAP1 by LATS1/2 inhibits its translocation into the nucleus to regulate cellular genes important for cell proliferation, cell death, and cell migration . The presence of TEAD transcription factors are required for it to stimulate gene expression, cell growth, anchorage-independent growth, and epithelial mesenchymal transition (EMT) induction . / Isoform 2: Isoform 2 and isoform 3 can activate the C-terminal fragment (CTF) of ERBB4 (isoform 3).
Anti-YAP-http://www.stjohnslabs.com/yap-antibody-p-94815
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Serine/threonine kinase which acts as an essential component of the MAP kinase signal transduction pathway. Plays an important role in the cascades of cellular responses evoked by changes in the environment. Mediates signal transduction of TRAF6, various cytokines including interleukin-1 (IL-1), transforming growth factor-beta (TGFB), TGFB-related factors like BMP2 and BMP4, toll-like receptors (TLR), tumor necrosis factor receptor CD40 and B-cell receptor (BCR). Ceramides are also able to activate MAP3K7/TAK1. Once activated, acts as an upstream activator of the MKK/JNK signal transduction cascade and the p38 MAPK signal transduction cascade through the phosphorylation and activation of several MAP kinase kinases like MAP2K1/MEK1, MAP2K3/MKK3, MAP2K6/MKK6 and MAP2K7/MKK7.
Anti-Tak1-http://www.stjohnslabs.com/tak1-antibody-p-94520
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Transcription factor that is the main target of insulin signaling and regulates metabolic homeostasis in response to oxidative stress. Binds to the insulin response element (IRE) with consensus sequence 5'-TT[G/A]TTTTG-3' and the related Daf-16 family binding element (DBE) with consensus sequence 5'-TT[G/A]TTTAC-3'. Activity suppressed by insulin. Main regulator of redox balance and osteoblast numbers and controls bone mass. Orchestrates the endocrine function of the skeleton in regulating glucose metabolism. Acts synergistically with ATF4 to suppress osteocalcin/BGLAP activity, increasing glucose levels and triggering glucose intolerance and insulin insensitivity. Also suppresses the transcriptional activity of RUNX2, an upstream activator of osteocalcin/BGLAP. In hepatocytes, promotes gluconeogenesis by acting together with PPARGC1A and CEBPA to activate the expression of genes such as IGFBP1, G6PC and PCK1. Important regulator of cell death acting downstream of CDK1, PKB/AKT1 and SKT4/MST1. Promotes neural cell death. Mediates insulin action on adipose tissue. Regulates the expression of adipogenic genes such as PPARG during preadipocyte differentiation and, adipocyte size and adipose tissue-specific gene expression in response to excessive calorie intake. Regulates the transcriptional activity of GADD45A and repair of nitric oxide-damaged DNA in beta-cells. Required for the autophagic cell death induction in response to starvation or oxidative stress in a transcription-independent
Anti-FoxO1-http://www.stjohnslabs.com/foxo1-antibody-p-92348
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Multifunctional protein that controls proliferation, differentiation and other functions in many cell types. Many cells synthesize TGFB1 and have specific receptors for it. It positively and negatively regulates many other growth factors. It plays an important role in bone remodeling as it is a potent stimulator of osteoblastic bone formation, causing chemotaxis, proliferation and differentiation in committed osteoblasts. Can promote either T-helper 17 cells (Th17) or regulatory T-cells (Treg) lineage differentiation in a concentration-dependent manner. At high concentrations, leads to FOXP3-mediated suppression of RORC and down-regulation of IL-17 expression, favoring Treg cell development. At low concentrations in concert with IL-6 and IL-21, leads to expression of the IL-17 and IL-23 receptors, favoring differentiation to Th17 cells. Mediates SMAD2/3 activation by inducing its phosphorylation and subsequent translocation to the nucleus . Can induce epithelial-to-mesenchymal transition (EMT) and cell migration in various cell types .
Anti-TGFβ1-http://www.stjohnslabs.com/tgfb1-antibody-p-94593
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NAD-dependent protein deacetylase that links transcriptional regulation directly to intracellular energetics and participates in the coordination of several separated cellular functions such as cell cycle, response to DNA damage, metobolism, apoptosis and autophagy. Can modulate chromatin function through deacetylation of histones and can promote alterations in the methylation of histones and DNA, leading to transcriptional repression. Deacetylates a broad range of transcription factors and coregulators, thereby regulating target gene expression positively and negatively. Serves as a sensor of the cytosolic ratio of NAD+/NADH which is altered by glucose deprivation and metabolic changes associated with caloric restriction. Is essential in skeletal muscle cell differentiation and in response to low nutrients mediates the inhibitory effect on skeletal myoblast differentiation which also involves 5'-AMP-activated protein kinase (AMPK) and nicotinamide phosphoribosyltransferase (NAMPT).
Anti-SIRT1-http://www.stjohnslabs.com/sirt1-antibody-p-94333
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Functions as histone acetyltransferase and regulates transcription via chromatin remodeling. Acetylates all four core histones in nucleosomes. Histone acetylation gives an epigenetic tag for transcriptional activation. Mediates cAMP-gene regulation by binding specifically to phosphorylated CREB protein. Mediates acetylation of histone H3 at 'Lys-122' (H3K122ac), a modification that localizes at the surface of the histone octamer and stimulates transcription, possibly by promoting nucleosome instability. Mediates acetylation of histone H3 at 'Lys-27' (H3K27ac). Also functions as acetyltransferase for nonhistone targets. Acetylates 'Lys-131' of ALX1 and acts as its coactivator. Acetylates SIRT2 and is proposed to indirectly increase the transcriptional activity of TP53 through acetylation and subsequent attenuation of SIRT2 deacetylase function. Acetylates HDAC1 leading to its inactivation and modulation of transcription. Acts as a TFAP2A-mediated transcriptional coactivator in presence of CITED2.
Anti-p300-http://www.stjohnslabs.com/p300-antibody-p-99296
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Calcium-activated, phospholipid- and diacylglycerol (DAG)-dependent serine/threonine-protein kinase that is involved in positive and negative regulation of cell proliferation, apoptosis, differentiation, migration and adhesion, tumorigenesis, cardiac hypertrophy, angiogenesis, platelet function and inflammation, by directly phosphorylating targets such as RAF1, BCL2, CSPG4, TNNT2/CTNT, or activating signaling cascade involving MAPK1/3 (ERK1/2) and RAP1GAP. Involved in cell proliferation and cell growth arrest by positive and negative regulation of the cell cycle. Can promote cell growth by phosphorylating and activating RAF1, which mediates the activation of the MAPK/ERK signaling cascade, and/or by up-regulating CDKN1A, which facilitates active cyclin-dependent kinase (CDK) complex formation in glioma cells. In intestinal cells stimulated by the phorbol ester PMA, can trigger a cell cycle arrest program which is associated with the accumulation of the hyper-phosphorylated growth-suppressive form of RB1 and induction of the CDK inhibitors CDKN1A and CDKN1B. Exhibits anti-apoptotic function in glioma cells and protects them from apoptosis by suppressing the p53/TP53-mediated activation of IGFBP3, and in leukemia cells mediates anti-apoptotic action by phosphorylating BCL2. During macrophage differentiation induced by macrophage colony-stimulating factor (CSF1), is translocated to the nucleus and is associated with macrophage development.
Anti-PKC-http://www.stjohnslabs.com/pkc-antibody
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Potent inhibitor of cell death. Inhibits activation of caspases. Appears to regulate cell death by blocking the voltage-dependent anion channel (VDAC) by binding to it and preventing the release of the caspase activator, CYC1, from the mitochondrial membrane. Also acts as a regulator of G2 checkpoint and progression to cytokinesis during mitosis. / Isoform Bcl-X(L) also regulates presynaptic plasticity, including neurotransmitter release and recovery, number of axonal mitochondria as well as size and number of synaptic vesicle clusters. During synaptic stimulation, increases ATP availability from mitochondria through regulation of mitochondrial membrane ATP synthase F1F0 activity and regulates endocytic vesicle retrieval in hippocampal neurons through association with DMN1L and stimulation of its GTPase activity in synaptic vesicles.
Anti-Bcl-x-http://www.stjohnslabs.com/bcl-x-antibody-p-91346
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Cytokine that binds to TNFRSF11B/OPG and to TNFRSF11A/RANK. Osteoclast differentiation and activation factor. Augments the ability of dendritic cells to stimulate naive T-cell proliferation. May be an important regulator of interactions between T-cells and dendritic cells and may play a role in the regulation of the T-cell-dependent immune response. May also play an important role in enhanced bone-resorption in humoral hypercalcemia of malignancy . Induces osteoclastogenesis by activating multiple signaling pathways in osteoclast precursor cells, chief among which is induction of long lasting oscillations in the intracellular concentration of Ca (2+) resulting in the activation of NFATC1, which translocates to the nucleus and induces osteoclast-specific gene transcription to allow differentiation of osteoclasts. During osteoclast differentiation, in a TMEM64 and ATP2A2-dependent manner induces activation of CREB1 and mitochondrial ROS generation necessary for proper osteoclast generation (By similarity).
Anti-RANKL-http://www.stjohnslabs.com/rankl-antibody-p-95106
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Actins are highly conserved proteins that are involved in various types of cell motility and are ubiquitously expressed in all eukaryotic cells. Actin participates in many important cellular processes, including muscle contraction, cell motility, cell division and cytokinesis, vesicle and organelle movement, cell signaling, and the establishment and maintenance of cell junctions and cell shape. Many of these processes are mediated by extensive and intimate interactions of actin with cellular membranes.
Anti-Actin β -http://www.stjohnslabs.com/actin-b-antibody
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Involved in the uptake of thrombin-antithrombin complexes by hepatic cells (By similarity). When phosphorylated, plays a role in filament reorganization. Involved in the delivery of mutated CFTR to the plasma membrane. Together with KRT8, is involved in interleukin-6 (IL-6)-mediated barrier protection.
Anti-Cytokeratin 18-http://www.stjohnslabs.com/cytokeratin-18-antibody-p-91959
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Glucose transporter type 4, also known as GLUT4, is a protein encoded, in humans, by the GLUT4 gene. GLUT4 is the insulin-regulated glucose transporter found primarily in adipose tissues and striated muscle (skeletal and cardiac). The first evidence for this distinct glucose transport protein was provided by David James in 1988. The gene that encodes GLUT4 was cloned and mapped in 1989. Recent reports demonstrated the presence of GLUT4 gene in central nervous system such as the hippocampus. Moreover, impairment in insulin-stimulated trafficking of GLUT4 in the hippocampus result in decreased metabolic activities and plasticity of hippocampal neurons, which leads to depressive like behaviour and cognitive dysfunction.
Anti-Glut4-http://www.stjohnslabs.com/glut4-antibody-p-98523
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Immunohistochemistry Antibody Validation Report for Anti-VE-Cadherin Antibody...St John's Laboratory Ltd
Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types. This cadherin may play a important role in endothelial cell biology through control of the cohesion and organization of the intercellular junctions. It associates with alpha-catenin forming a link to the cytoskeleton. Acts in concert with KRIT1 to establish and maintain correct endothelial cell polarity and vascular lumen. These effects are mediated by recruitment and activation of the Par polarity complex and RAP1B. Required for activation of PRKCZ and for the localization of phosphorylated PRKCZ, PARD3, TIAM1 and RAP1B to the cell junction.
Anti-VE-Cadherin-http://www.stjohnslabs.com/ve-cadherin-antibody-p-98941
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Similar to Immunohistochemistry Antibody Validation Report for Anti-PERK Antibody (STJ95031) (13)
G protein-coupled receptor that probably associates with the patched protein (PTCH) to transduce the hedgehog's proteins signal. Binding of sonic hedgehog (SHH) to its receptor patched is thought to prevent normal inhibition by patched of smoothened (SMO). Required for the accumulation of KIF7 and GLI3 in the cilia.
Anti-Smo antibody (STJ95710): http://www.stjohnslabs.com/smo-antibody-p-94371?filter_name=STJ95710
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Western Blot Customer Review Anti Glucocorticoid Receptor antibody (STJ97101)St John's Laboratory Ltd
Receptor for glucocorticoids (GC). Has a dual mode of action: as a transcription factor that binds to glucocorticoid response elements (GRE), both for nuclear and mitochondrial DNA, and as a modulator of other transcription factors. Affects inflammatory responses, cellular proliferation and differentiation in target tissues. Involved in chromatin remodeling . Plays a role in rapid mRNA degradation by binding to the 5' UTR of target mRNAs and interacting with PNRC2 in a ligand-dependent manner. Could act as a coactivator for STAT5-dependent transcription upon growth hormone (GH) stimulation and could reveal an essential role of hepatic GR in the control of body growth (By similarity). Has transcriptional activation and repression activity . Mediates glucocorticoid-induced apoptosis . Promotes accurate chromosome segregation during mitosis . May act as a tumor suppressor . May play a negative role in adipogenesis through the regulation of lipolytic and antilipogenic gene expression (By similarity). / Isoform Beta: Acts as a dominant negative inhibitor of isoform Alpha . Has intrinsic transcriptional activity independent of isoform Alpha when both isoforms are coexpressed.
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Anti glucocorticoid receptor antibody (STJ97101):
http://www.stjohnslabs.com/glucocorticoid-receptor-antibody-p-98736?filter_name=STJ97101
Western Blot Customer Review Anti-Phospho-Cofilin (S3) Antibody (STJ90230)St John's Laboratory Ltd
Binds to F-actin and exhibits pH-sensitive F-actin depolymerizing activity. Regulates actin cytoskeleton dynamics. Important for normal progress through mitosis and normal cytokinesis. Plays a role in the regulation of cell morphology and cytoskeletal organization. Required for the up-regulation of atypical chemokine receptor ACKR2 from endosomal compartment to cell membrane, increasing its efficiency in chemokine uptake and degradation.
Anti-Phospho-Cofilin (S3) -http://www.stjohnslabs.com/phospho-cofilin-s3-antibody
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This June, Dr. Byron Baron from the University of Malta, Malta, is our Scientist of the Month! He's shared with us his research highlights, his current projects and some comments on the biotechnology industry.
Want to be our Scientist of the Month? Contact info@stjohnslabs.com
Downstream effector molecule involved in the transmission of signals from tyrosine kinase receptors and small GTPases to the actin cytoskeleton. Promotes formation of actin filaments. Part of the WAVE complex that regulates lamellipodia formation. The WAVE complex regulates actin filament reorganization via its interaction with the Arp2/3 complex.
Anti-WAVE2 -http://www.stjohnslabs.com/wave2-antibody
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Implicated in synaptic vesicle endocytosis. May recruit other proteins to membranes with high curvature.
Brain, mostly in frontal cortex. Expressed at high level in fetal cerebellum.
Anti-Endophilin I -http://www.stjohnslabs.com/endophilin-i-antibody
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Tubulin is the major constituent of microtubules. It binds two moles of GTP, one at an exchangeable site on the beta chain and one at a non-exchangeable site on the alpha chain. TUBB3 plays a critical role in proper axon guidance and mantainance.
Anti-β-tubulin -http://www.stjohnslabs.com/b-tubulin-antibody-p-98672
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Most upstream protease of the activation cascade of caspases responsible for the TNFRSF6/FAS mediated and TNFRSF1A induced cell death. Binding to the adapter molecule FADD recruits it to either receptor. The resulting aggregate called death-inducing signaling complex (DISC) performs CASP8 proteolytic activation. The active dimeric enzyme is then liberated from the DISC and free to activate downstream apoptotic proteases. Proteolytic fragments of the N-terminal propeptide (termed CAP3, CAP5 and CAP6) are likely retained in the DISC. Cleaves and activates CASP3, CASP4, CASP6, CASP7, CASP9 and CASP10. May participate in the GZMB apoptotic pathways. Cleaves ADPRT. Hydrolyzes the small-molecule substrate, Ac-Asp-Glu-Val-Asp-|-AMC. Likely target for the cowpox virus CRMA death inhibitory protein. Isoform 5, isoform 6, isoform 7 and isoform 8 lack the catalytic site and may interfere with the pro-apoptotic activity of the complex. / Strict requirement for Asp at position P1 and has a preferred cleavage sequence of (Leu/Asp/Val)-Glu-Thr-Asp-|-(Gly/Ser/Ala). / Inhibited by the effector protein NleF that is produced by pathogenic E.coli; this inhibits apoptosis.
Anti-Caspase-8-http://www.stjohnslabs.com/caspase-8-antibody-p-99045
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Tubulin is the major constituent of microtubules. The gamma chain is found at microtubule organizing centers (MTOC) such as the spindle poles or the centrosome. Pericentriolar matrix component that regulates alpha/beta chain minus-end nucleation, centrosome duplication and spindle formation.
Anti-Gamma Tubulin-http://www.stjohnslabs.com/gamma-tubulin-antibody
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Tubulin in molecular biology can refer either to the tubulin protein superfamily of globular proteins, or one of the member proteins of that superfamily. α- and β-tubulins polymerize into microtubules, a major component of the eukaryotic cytoskeleton. Microtubules function in many essential cellular processes, including mitosis. Tubulin-binding drugs kill cancerous cells by inhibiting microtubule dynamics, which are required for DNA segregation and therefore cell division. In eukaryotes there are six members of the tubulin superfamily, although not all are present in all species (see below). Both α and β tubulins have a mass of around 50 kDa and are thus in a similar range compared to actin with ~42 kDa. In contrast, tubulin polymers (microtubules) tend to be much bigger than actin filaments due to their cylindrical nature. Tubulin was long thought to be specific to eukaryotes. More recently, however, several prokaryotic proteins have been shown to be related to tubulin.
Anti-Epsilon Tubulin -http://www.stjohnslabs.com/epsilon-tubulin-antibody-2
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Ubiquitin-like modifier involved in formation of autophagosomal vacuoles (autophagosomes) . Whereas LC3s are involved in elongation of the phagophore membrane, the GABARAP/GATE-16 subfamily is essential for a later stage in autophagosome maturation .
Anti-LC3A-http://www.stjohnslabs.com/lc3a-antibody
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Multifunctional transcription factor in ER stress response. Plays an essential role in the response to a wide variety of cell stresses and induces cell cycle arrest and apoptosis in response to ER stress. Plays a dual role both as an inhibitor of CCAAT/enhancer-binding protein (C/EBP) function and as an activator of other genes. Acts as a dominant-negative regulator of C/EBP-induced transcription: dimerizes with members of the C/EBP family, impairs their association with C/EBP binding sites in the promoter regions, and inhibits the expression of C/EBP regulated genes. Positively regulates the transcription of TRIB3, IL6, IL8, IL23, TNFRSF10B/DR5, PPP1R15A/GADD34, BBC3/PUMA, BCL2L11/BIM and ERO1L. Negatively regulates; expression of BCL2 and MYOD1, ATF4-dependent transcriptional activation of asparagine synthetase (ASNS), CEBPA-dependent transcriptional activation of hepcidin (HAMP) and CEBPB-mediated expression of peroxisome proliferator-activated receptor gamma (PPARG).
Anti-CHOP-http://www.stjohnslabs.com/chop-antibody-2
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Pseudokinase that plays a key role in TNF-induced necroptosis, a programmed cell death process. Activated following phosphorylation by RIPK3, leading to homotrimerization, localization to the plasma membrane and execution of programmed necrosis characterized by calcium influx and plasma membrane damage. Does not have protein kinase activity.
Anti-phospho-MLKL (S358)-http://www.stjohnslabs.com/phospho-mlkl-s358-antibody-1
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Serine/threonine kinase which acts as an essential component of the MAP kinase signal transduction pathway. MAPK1/ERK2 and MAPK3/ERK1 are the 2 MAPKs which play an important role in the MAPK/ERK cascade. They participate also in a signaling cascade initiated by activated KIT and KITLG/SCF. Depending on the cellular context, the MAPK/ERK cascade mediates diverse biological functions such as cell growth, adhesion, survival and differentiation through the regulation of transcription, translation, cytoskeletal rearrangements. The MAPK/ERK cascade plays also a role in initiation and regulation of meiosis, mitosis, and postmitotic functions in differentiated cells by phosphorylating a number of transcription factors. About 160 substrates have already been discovered for ERKs. Many of these substrates are localized in the nucleus, and seem to participate in the regulation of transcription upon stimulation.
Anti-ERK1-http://www.stjohnslabs.com/erk1-antibody-3
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Tyrosine-protein kinase that acts as a cell-surface receptor for PDGFA, PDGFB and PDGFC and plays an essential role in the regulation of embryonic development, cell proliferation, survival and chemotaxis. Depending on the context, promotes or inhibits cell proliferation and cell migration. Plays an important role in the differentiation of bone marrow-derived mesenchymal stem cells. Required for normal skeleton development and cephalic closure during embryonic development. Required for normal development of the mucosa lining the gastrointestinal tract, and for recruitment of mesenchymal cells and normal development of intestinal villi. Plays a role in cell migration and chemotaxis in wound healing. Plays a role in platelet activation, secretion of agonists from platelet granules, and in thrombin-induced platelet aggregation.
Anti-PDGFRα-http://www.stjohnslabs.com/pdgfra-antibody-2
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Thiol protease that cleaves IL-1 beta between an Asp and an Ala, releasing the mature cytokine which is involved in a variety of inflammatory processes. Important for defense against pathogens. Cleaves and activates sterol regulatory element binding proteins (SREBPs). Can also promote apoptosis. / Strict requirement for an Asp residue at position P1 and has a preferred cleavage sequence of Tyr-Val-Ala-Asp-|-. / Specifically inhibited by the cowpox virus Crma protein.
Anti-Caspase-1-http://www.stjohnslabs.com/caspase-1-antibody-1
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Functions as a cell surface receptor and performs physiological functions on the surface of neurons relevant to neurite growth, neuronal adhesion and axonogenesis. Involved in cell mobility and transcription regulation through protein-protein interactions. Can promote transcription activation through binding to APBB1-KAT5 and inhibits Notch signaling through interaction with Numb. Couples to apoptosis-inducing pathways such as those mediated by G(O) and JIP. Inhibits G(o) alpha ATPase activity (By similarity). Acts as a kinesin I membrane receptor, mediating the axonal transport of beta-secretase and presenilin 1. Involved in copper homeostasis/oxidative stress through copper ion reduction. In vitro, copper-metallated APP induces neuronal death directly or is potentiated through Cu2+-mediated low-density lipoprotein oxidation.
Anti-Amyloid-β-http://www.stjohnslabs.com/amyloid-v-antibody
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Suppresses apoptosis in a variety of cell systems including factor-dependent lymphohematopoietic and neural cells. Regulates cell death by controlling the mitochondrial membrane permeability. Appears to function in a feedback loop system with caspases. Inhibits caspase activity either by preventing the release of cytochrome c from the mitochondria and/or by binding to the apoptosis-activating factor (APAF-1). May attenuate inflammation by impairing NLRP1-inflammasome activation, hence CASP1 activation and IL1B release .
Anti-Bcl-2-http://www.stjohnslabs.com/bcl-2-antibody-1
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Alpha-actin-2 also known as actin, aortic smooth muscle or alpha smooth muscle actin (α-SMA, SMactin, alpha-SM-actin, ASMA) is a protein that in humans is encoded by the ACTA2 gene located on 10q22-q24. Actin alpha 2, the human aortic smooth muscle actin gene, is one of six different actin isoforms which have been identified. Actins are highly conserved proteins that are involved in cell motility, structure and integrity. Alpha actins are a major constituent of the contractile apparatus. Alpha-smooth muscle actin (α-SMA) is commonly used as a marker of myofibroblast formation.
Anti-α-SMA -http://www.stjohnslabs.com/a-sma-antibody-1
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THE IMPORTANCE OF MARTIAN ATMOSPHERE SAMPLE RETURN.Sérgio Sacani
The return of a sample of near-surface atmosphere from Mars would facilitate answers to several first-order science questions surrounding the formation and evolution of the planet. One of the important aspects of terrestrial planet formation in general is the role that primary atmospheres played in influencing the chemistry and structure of the planets and their antecedents. Studies of the martian atmosphere can be used to investigate the role of a primary atmosphere in its history. Atmosphere samples would also inform our understanding of the near-surface chemistry of the planet, and ultimately the prospects for life. High-precision isotopic analyses of constituent gases are needed to address these questions, requiring that the analyses are made on returned samples rather than in situ.
Multi-source connectivity as the driver of solar wind variability in the heli...Sérgio Sacani
The ambient solar wind that flls the heliosphere originates from multiple
sources in the solar corona and is highly structured. It is often described
as high-speed, relatively homogeneous, plasma streams from coronal
holes and slow-speed, highly variable, streams whose source regions are
under debate. A key goal of ESA/NASA’s Solar Orbiter mission is to identify
solar wind sources and understand what drives the complexity seen in the
heliosphere. By combining magnetic feld modelling and spectroscopic
techniques with high-resolution observations and measurements, we show
that the solar wind variability detected in situ by Solar Orbiter in March
2022 is driven by spatio-temporal changes in the magnetic connectivity to
multiple sources in the solar atmosphere. The magnetic feld footpoints
connected to the spacecraft moved from the boundaries of a coronal hole
to one active region (12961) and then across to another region (12957). This
is refected in the in situ measurements, which show the transition from fast
to highly Alfvénic then to slow solar wind that is disrupted by the arrival of
a coronal mass ejection. Our results describe solar wind variability at 0.5 au
but are applicable to near-Earth observatories.
(May 29th, 2024) Advancements in Intravital Microscopy- Insights for Preclini...Scintica Instrumentation
Intravital microscopy (IVM) is a powerful tool utilized to study cellular behavior over time and space in vivo. Much of our understanding of cell biology has been accomplished using various in vitro and ex vivo methods; however, these studies do not necessarily reflect the natural dynamics of biological processes. Unlike traditional cell culture or fixed tissue imaging, IVM allows for the ultra-fast high-resolution imaging of cellular processes over time and space and were studied in its natural environment. Real-time visualization of biological processes in the context of an intact organism helps maintain physiological relevance and provide insights into the progression of disease, response to treatments or developmental processes.
In this webinar we give an overview of advanced applications of the IVM system in preclinical research. IVIM technology is a provider of all-in-one intravital microscopy systems and solutions optimized for in vivo imaging of live animal models at sub-micron resolution. The system’s unique features and user-friendly software enables researchers to probe fast dynamic biological processes such as immune cell tracking, cell-cell interaction as well as vascularization and tumor metastasis with exceptional detail. This webinar will also give an overview of IVM being utilized in drug development, offering a view into the intricate interaction between drugs/nanoparticles and tissues in vivo and allows for the evaluation of therapeutic intervention in a variety of tissues and organs. This interdisciplinary collaboration continues to drive the advancements of novel therapeutic strategies.
What is greenhouse gasses and how many gasses are there to affect the Earth.moosaasad1975
What are greenhouse gasses how they affect the earth and its environment what is the future of the environment and earth how the weather and the climate effects.
A brief information about the SCOP protein database used in bioinformatics.
The Structural Classification of Proteins (SCOP) database is a comprehensive and authoritative resource for the structural and evolutionary relationships of proteins. It provides a detailed and curated classification of protein structures, grouping them into families, superfamilies, and folds based on their structural and sequence similarities.
This presentation explores a brief idea about the structural and functional attributes of nucleotides, the structure and function of genetic materials along with the impact of UV rays and pH upon them.
Slide 1: Title Slide
Extrachromosomal Inheritance
Slide 2: Introduction to Extrachromosomal Inheritance
Definition: Extrachromosomal inheritance refers to the transmission of genetic material that is not found within the nucleus.
Key Components: Involves genes located in mitochondria, chloroplasts, and plasmids.
Slide 3: Mitochondrial Inheritance
Mitochondria: Organelles responsible for energy production.
Mitochondrial DNA (mtDNA): Circular DNA molecule found in mitochondria.
Inheritance Pattern: Maternally inherited, meaning it is passed from mothers to all their offspring.
Diseases: Examples include Leber’s hereditary optic neuropathy (LHON) and mitochondrial myopathy.
Slide 4: Chloroplast Inheritance
Chloroplasts: Organelles responsible for photosynthesis in plants.
Chloroplast DNA (cpDNA): Circular DNA molecule found in chloroplasts.
Inheritance Pattern: Often maternally inherited in most plants, but can vary in some species.
Examples: Variegation in plants, where leaf color patterns are determined by chloroplast DNA.
Slide 5: Plasmid Inheritance
Plasmids: Small, circular DNA molecules found in bacteria and some eukaryotes.
Features: Can carry antibiotic resistance genes and can be transferred between cells through processes like conjugation.
Significance: Important in biotechnology for gene cloning and genetic engineering.
Slide 6: Mechanisms of Extrachromosomal Inheritance
Non-Mendelian Patterns: Do not follow Mendel’s laws of inheritance.
Cytoplasmic Segregation: During cell division, organelles like mitochondria and chloroplasts are randomly distributed to daughter cells.
Heteroplasmy: Presence of more than one type of organellar genome within a cell, leading to variation in expression.
Slide 7: Examples of Extrachromosomal Inheritance
Four O’clock Plant (Mirabilis jalapa): Shows variegated leaves due to different cpDNA in leaf cells.
Petite Mutants in Yeast: Result from mutations in mitochondrial DNA affecting respiration.
Slide 8: Importance of Extrachromosomal Inheritance
Evolution: Provides insight into the evolution of eukaryotic cells.
Medicine: Understanding mitochondrial inheritance helps in diagnosing and treating mitochondrial diseases.
Agriculture: Chloroplast inheritance can be used in plant breeding and genetic modification.
Slide 9: Recent Research and Advances
Gene Editing: Techniques like CRISPR-Cas9 are being used to edit mitochondrial and chloroplast DNA.
Therapies: Development of mitochondrial replacement therapy (MRT) for preventing mitochondrial diseases.
Slide 10: Conclusion
Summary: Extrachromosomal inheritance involves the transmission of genetic material outside the nucleus and plays a crucial role in genetics, medicine, and biotechnology.
Future Directions: Continued research and technological advancements hold promise for new treatments and applications.
Slide 11: Questions and Discussion
Invite Audience: Open the floor for any questions or further discussion on the topic.
Immunohistochemistry Antibody Validation Report for Anti-PERK Antibody (STJ95031)
1. Figure:
Immunohistochemical
analysis of paraffin
embedded Human
Tonsil tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-a Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species HUMAN Testing Tissue TONSIL
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
40. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
41. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
42. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
43. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
44. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
34.
35. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
36. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
37. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
38. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
39. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
2. Figure:
Immunohistochemical
analysis of paraffin
embedded Human lung
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-b Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species HUMAN Testing Tissue LUNG
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
29. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
30. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
31. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
32. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
33. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
23.
24. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
25. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
26. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
27. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
28. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
3. Figure:
Immunohistochemical
analysis of paraffin
embedded Human
stomach tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-c Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species HUMAN Testing Tissue STOMACH
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
18. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
19. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
20. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
21. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
22. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
12.
13. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
14. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
15. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
16. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
17. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
4. Figure:
Immunohistochemical
analysis of paraffin
embedded Human
stomach cancer tissue.
1: PERK Polyclonal
Antibody was diluted at
1:200 (4 degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-d Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species HUMAN Testing Tissue STOMACH CANCER
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
7. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
8. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
9. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
10. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
11. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
1.
2. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
3. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
4. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
5. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
6. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
5. Figure:
Immunohistochemical
analysis of paraffin
embedded Human
appendix tissue. 1:
PERK Polyclonal
Antibody was diluted at
1:200 (4 degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-e Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species HUMAN Testing Tissue APPENDIX
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
45. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
46. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
47. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
48. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
49. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
50.
51. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
52. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
53. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
54. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
55. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
6. Figure:
Immunohistochemical
analysis of paraffin
embedded Rat heart
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-f Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species RAT Testing Tissue HEART
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
56. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
57. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
58. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
59. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
60. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
61.
62. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
63. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
64. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
65. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
66. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
7. Figure:
Immunohistochemical
analysis of paraffin
embedded Rat liver
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-g Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species RAT Testing Tissue LIVER
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
67. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
68. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
69. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
70. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
71. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
72.
73. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
74. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
75. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
76. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
77. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
8. Figure:
Immunohistochemical
analysis of paraffin
embedded Rat lung
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-h Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species RAT Testing Tissue LUNG
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
78. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
79. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
80. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
81. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
82. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
83.
84. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
85. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
86. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
87. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
88. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
9. Figure:
Immunohistochemical
analysis of paraffin
embedded Rat kidney
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-i Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species RAT Testing Tissue KIDNEY
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
89. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
90. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
91. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
92. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
93. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
94.
95. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
96. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
97. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
98. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
99. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
10. Figure:
Immunohistochemical
analysis of paraffin
embedded Mouse heart
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-j Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species MOUSE Testing Tissue HEART
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
100. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
101. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
102. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
103. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
104. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
105.
106. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
107. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
108. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
109. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
110. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
11. Figure:
Immunohistochemical
analysis of paraffin
embedded Mouse liver
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-k Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species MOUSE Testing Tissue LIVER
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
111. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
112. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
113. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
114. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
115. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
116.
117. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
118. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
119. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
120. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
121. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com
12. Figure:
Immunohistochemical
analysis of paraffin
embedded Mouse lung
tissue. 1: PERK
Polyclonal Antibody
was diluted at 1:200 (4
degree
Celsius,overnight). 2:
Sodium citrate pH 6.0
was used for antibody
retrieval (>98 degree
Celsius,20min). 3:
Secondary antibody was
diluted at 1:200 (room
temperature, 30min).
Negative control was
used by secondary
antibody only.
Report Number 95031-l Host Rabbit
Application IHC-P Clonality Polyclonal
Model Number STJ95031 Clone ID NA
Antibody Name Anti-PERK antibody
Testing Species MOUSE Testing Tissue LUNG
ANTIBODY VALIDATION REPORT
b. (A small amount of distilled water was added into the incubation
box to prevent evaporation of antibody).
122. Secondary antibody incubation
a. Slides were washed 3 times, with PBS on a shaker for 5min.
Shortly after the slides were dried the corresponding secondary
antibody solution was added (HRP labelled), covering the
tissues, and incubated at room temperature for 30min.
b.
123. DAB staining
a. Slides were washed 3 times, with PBS on a shaker for 5min.
b. Shortly after, the slides were dried and fresh DAB staining buffer
was added inside the circles. The staining time was adjusted
under a microscope. Yellow-brown colour represented a positive
result. Slides were washed with water to stop the staining.
c.
124. Haematoxylin staining
a. Haematoxylin was used to counter-staining for 1min, and then
the slides were washed with water. 1% Hydrochloric acid and
alcohol was added for several seconds and then washed with
water. Ammonia was used to reveal blue colour, and then
flushed with water.
b.
125. Desolation and Clearing
i. Slides were incubated sequentially into: 75% alcohol 5min, 85%
alcohol 5min, Anhydrous ethanol - 5min, Anhydrous ethanol -
5min & Xylene - 5min. Shortly after slides were dried and neutral
gum was used to seal the slides.
ii.
126. Visualization
a. Results were validated with microscope, and the slides were
scanned.
Paraffin-Embedded
Immunohistochemistry Protocol
127.
128. Tissue processing
a. Slides were incubated sequentially into Xylene; 15min –
Xylene, 15min - Anhydrous ethanol, 5min - Anhydrous
ethanol, 5min - 85% alcohol, 5min - 75% alcohol & 5min –
wash in distilled water.
b.
129. Antigen retrieval
a. Tissue slides were incubated with citric acid (PH6.0) antigen
retrieval buffer and microwaved for antigen retrieval (heated
until boiled and then stopped heating) for 8min. Slides were
then heated with medium power for 7min. During this
process slides were kept from drying out. After cooling down
at room temperature, slides were washed with PBS on
shaker for 5min, repeated for 3 times.
b.
130. Inhibition of endogenous peroxidase
a. Slides were placed in 3% Hydrogen peroxide solution, and
incubated for 10 min at room temperature without light
exposure. Slides were then washed 3 times with PBS on a
shaker for 5mins.
b.
131. BSA Blocking
a. Shortly after slides were dried, a PAP pen was used to draw
circles around the tissue sections (and to prevent draining of
the antibody solution). Inside the circles, BSA was used to
cover the tissue evenly, blocking for 30min.
b.
132. Primary antibody incubation
After blocking solution was removed a 1:200 solution of
primary antibody/PBS was added on the slide, and incubated
overnight at 4°C.
St John's Laboratory Ltd.
www.stjohnslabs.com