This document describes the identification of a putative human mitochondrial thymidine monophosphate kinase (TMPK2). The researchers cloned and characterized a cDNA encoding TMPK2 that contains a mitochondrial targeting sequence. They showed that TMPK2 localizes to mitochondria and overexpression increases cellular dTTP levels and the conversion of radioactive thymidine and dTMP to dTDP and dTTP in mitochondria. TMPK2 expression was detected in various tissues and cell lines, and was upregulated during monocyte/macrophage differentiation, suggesting its role in mitochondrial DNA synthesis during cellular differentiation.
ShRNA-specific regulation of FMNL2 expression in P19 cellsYousefLayyous
This video encompasses all the steps and data produced for my graduation project in BSc in Biopharmaceutical science. During the course of the project we modified mammalian cells using Short Hairpin RNA to inhibit the correct function of the cytoskelleton. In this way we studied the importance of FMNL2 for the activation and regulation of actin fibers. Among the methods used are Flourescent microscopy, mamallian cell culture, cloning and flow cytometry.
Regulation of pten activity by its carboxyl terminal autoinhibitoryChau Chan Lao
Regulation of PTEN Activity by Its Carboxyl-terminal Autoinhibitory Domain.
Leticia Odriozola, Gobind Singh, Thuong Hoang, and Andrew M. Chan
From the Department of Oncological Sciences, Mount Sinai School of Medicine, New York, New York, 10029
THE JOURNAL OF BIOLOGICAL CHEMISTRY, VOL. 282, NO. 32, pp. 23306–23315, August 10, 2007
目前已知PTEN(Phosphatase and tensin homolog)是腫瘤抑制蛋白,其由403個氨基酸組成,主要分PTPase及C2 domain,C2 domain使PTEN可與細胞膜作用連結。
PTEN之C-tail(aa 350~403)被發現具有調控PTEN自身活性之功能。前人研究指出C-tail有6個可磷酸化之位置(Thr-366、Ser-370、Ser-380、Thr-382、Thr-383及Ser-385),這些位置可調控PTEN之腫瘤抑制能力、胞內之分佈及穩定性。前人產生以上位置突變之PTEN變異株,發現這些變異株具有更強的腫瘤抑制能力,但穩定性將降低,這可能是因這些變異株具有更開放結構所致。
本報告針對研究PTEN C-tail在連結細胞膜和在其本身催化活性中扮演的功能。作者先產生一系列之PTEN磷酸化位置變異株,發現S385A會促使PTEN之membrane localization in vivo及加強phosphatase活性in vitro,而且此突變會使Ser-380/Thr-382/Thr-383 cluster的磷酸化程度降低,因此知Ser-385可透過被去磷酸化以調控PTEN。而以phosphomimic residues取代Ser-380/Thr-382/Thr-383會使上述S385A所產生之PTEN催化活性反轉。之後利用免疫沉澱方法,發現C-tail之71-amino acid region會與C2 domain上之CBR3 motif作用,暗示C-tail參與連結細胞膜之調控。最後利用合成之PTEN C-tail peptide,發現其可抑制PTEN之催化活性in vitro,而在細胞表現此peptide則會抑制PTEN之membrane localization,磷酸化之Akt量亦上升。以上實驗顯示C-tail在PTEN之membrane recruitment及PTPase活性調控中扮演Autoinhibitory domain角色。
ShRNA-specific regulation of FMNL2 expression in P19 cellsYousefLayyous
This video encompasses all the steps and data produced for my graduation project in BSc in Biopharmaceutical science. During the course of the project we modified mammalian cells using Short Hairpin RNA to inhibit the correct function of the cytoskelleton. In this way we studied the importance of FMNL2 for the activation and regulation of actin fibers. Among the methods used are Flourescent microscopy, mamallian cell culture, cloning and flow cytometry.
Regulation of pten activity by its carboxyl terminal autoinhibitoryChau Chan Lao
Regulation of PTEN Activity by Its Carboxyl-terminal Autoinhibitory Domain.
Leticia Odriozola, Gobind Singh, Thuong Hoang, and Andrew M. Chan
From the Department of Oncological Sciences, Mount Sinai School of Medicine, New York, New York, 10029
THE JOURNAL OF BIOLOGICAL CHEMISTRY, VOL. 282, NO. 32, pp. 23306–23315, August 10, 2007
目前已知PTEN(Phosphatase and tensin homolog)是腫瘤抑制蛋白,其由403個氨基酸組成,主要分PTPase及C2 domain,C2 domain使PTEN可與細胞膜作用連結。
PTEN之C-tail(aa 350~403)被發現具有調控PTEN自身活性之功能。前人研究指出C-tail有6個可磷酸化之位置(Thr-366、Ser-370、Ser-380、Thr-382、Thr-383及Ser-385),這些位置可調控PTEN之腫瘤抑制能力、胞內之分佈及穩定性。前人產生以上位置突變之PTEN變異株,發現這些變異株具有更強的腫瘤抑制能力,但穩定性將降低,這可能是因這些變異株具有更開放結構所致。
本報告針對研究PTEN C-tail在連結細胞膜和在其本身催化活性中扮演的功能。作者先產生一系列之PTEN磷酸化位置變異株,發現S385A會促使PTEN之membrane localization in vivo及加強phosphatase活性in vitro,而且此突變會使Ser-380/Thr-382/Thr-383 cluster的磷酸化程度降低,因此知Ser-385可透過被去磷酸化以調控PTEN。而以phosphomimic residues取代Ser-380/Thr-382/Thr-383會使上述S385A所產生之PTEN催化活性反轉。之後利用免疫沉澱方法,發現C-tail之71-amino acid region會與C2 domain上之CBR3 motif作用,暗示C-tail參與連結細胞膜之調控。最後利用合成之PTEN C-tail peptide,發現其可抑制PTEN之催化活性in vitro,而在細胞表現此peptide則會抑制PTEN之membrane localization,磷酸化之Akt量亦上升。以上實驗顯示C-tail在PTEN之membrane recruitment及PTPase活性調控中扮演Autoinhibitory domain角色。
Epigenetic silencing of MGMT (O6-methylguanine DNA methyltransferase) gene in...arman170701
O6–methylgunine-DNA methyltransferace (MGMT) is a DNA binding protein that is involved in repairing mutations.
MGMT gene - a tumor suppressor gene that codes MGMT (O6-methylguanine DNA methyltransferase) protein.
The MGMT protein removes mutagenic methyl groups from guanines through the methyltransferase activity.
A new effector pathway links ATM kinase with the DNA damage responseCostas Demonacos
The related kinases ATM (ataxia-telangiectasia mutated) and ATR (ataxia-telangiectasia and Rad3-related) phosphorylate a limited number of downstream protein targets in response to DNA damage. Here we report a new pathway in which ATM kinase signals the DNA damage response by targeting the transcriptional cofactor Strap. ATM phosphorylates Strap at a serine residue, stabilizing nuclear Strap and facilitating formation of a stress-responsive co-activator complex. Strap activity enhances p53 acetylation, and augments the response to DNA damage. Strap remains localized in the cytoplasm in cells derived from ataxia telangiectasia individuals with defective ATM, as well as in cells expressing a Strap mutant that cannot be phosphorylated by ATM. Targeting Strap to the nucleus reinstates protein stabilization and activates the DNA damage response. These results indicate that the nuclear accumulation of Strap is a critical regulator in the damage response, and argue that this function can be assigned to ATM through the DNA damage-dependent phosphorylation of Strap.
Epigenetic silencing of MGMT (O6-methylguanine DNA methyltransferase) gene in...arman170701
O6–methylgunine-DNA methyltransferace (MGMT) is a DNA binding protein that is involved in repairing mutations.
MGMT gene - a tumor suppressor gene that codes MGMT (O6-methylguanine DNA methyltransferase) protein.
The MGMT protein removes mutagenic methyl groups from guanines through the methyltransferase activity.
A new effector pathway links ATM kinase with the DNA damage responseCostas Demonacos
The related kinases ATM (ataxia-telangiectasia mutated) and ATR (ataxia-telangiectasia and Rad3-related) phosphorylate a limited number of downstream protein targets in response to DNA damage. Here we report a new pathway in which ATM kinase signals the DNA damage response by targeting the transcriptional cofactor Strap. ATM phosphorylates Strap at a serine residue, stabilizing nuclear Strap and facilitating formation of a stress-responsive co-activator complex. Strap activity enhances p53 acetylation, and augments the response to DNA damage. Strap remains localized in the cytoplasm in cells derived from ataxia telangiectasia individuals with defective ATM, as well as in cells expressing a Strap mutant that cannot be phosphorylated by ATM. Targeting Strap to the nucleus reinstates protein stabilization and activates the DNA damage response. These results indicate that the nuclear accumulation of Strap is a critical regulator in the damage response, and argue that this function can be assigned to ATM through the DNA damage-dependent phosphorylation of Strap.
The global polyvinyl butyral (PVB) market size was USD 2.24 billion in 2015 and expanding government spending on solar power and construction infrastructure along with the growing population will augment industry expansion
Try this site where you can compare quotes from different companies: WWW.ANNUITY-HELP.US
Payment of Annuity Due?
If the present value of a 3-year annuity due is $4,500 and the discount rate is 11%, what is the annual payment of this annuity?
Please show the steps and provide as clear explanation as possible. Thanks in advance ;*
this was a web based project developed using HTML(Twitter Bootstrap framework) as the front end, jsp as the server side language and Microsoft sql server as the back end
Diversity Matters: How to Be the Change you SeekAtlassian
Diversity is a competitive advantage for businesses and a crucial component for creating high-performing teams that drive innovation. But what are the pragmatic things you can do to drive real change in your organization? In this talk we’ll share real-world examples of three Atlassians who took the Atlassian value “Be the Change you Seek” to drive changes in diversity both internally and externally:
Learn about the concept of mentoring rings and the benefits it brings to organizations
See examples of initiatives our volunteer-run Side by Side groups at Atlassian have done
Hear about recent work we’ve been doing with external organizations
Get some actionable insights on what you too can be doing to drive positive change on diversity
Products covered:
HipChat
Development teams and sale/marketing teams aren't always BFFs. Too often, there is a master-slave relationship: either marketing dictates what the product team builds based solely on what is "sellable" with little consideration to timelines or what non-customer-facing work needs to be done, or the product team does a bunch of random work with little consideration for creating a strong marketing "story". But it doesn't have to be this way.
In the DevOps spirit of cross-team collaboration, why not recruit sales and marketing as your newest allies in the fight against workplace silos?
This talk will cover practical, battle-tested ways to work together towards a higher-quality and more marketable piece of software. I'll share examples of how product teams at Atlassian do it – drawing both from personal experience, and the experience of my fellow marketers. From semi-obvious things like information radiators, to deeper collaborations in roadmapping and release planning, there's a lot more you can do than just invite the sales team to your stand-ups.
Products covered:
Bamboo, JIRA Service Desk
This ppts is based upon the recent adavancement and methodology about mitochondrial transformation. What is organellar transformation and what is the importance in contemporary time.
Models of Human Diseases Conference (2010) Tetrahymena model by Dr. R. Pearl...Medical Education Advising
The Ciliate Protozoan Tetrahymena thermophila as an important animal model organism
Dr. R.E. Pearlman, York University
Models of Human Diseases Conference
June 29, 2010
Cells respond to nutrient deprivation a variety of ways. In addition to global down regulation of cap-dependent protein
synthesis mediated by the GCN2 and mTO RC1 signaling pathways, a catabolic process autophagy is upregulated to
provide internal building blocks and energy needed to sustain viability. It has recently been shown that during nutrient
deprivation tRNAs accumulate in the nucleus, but the functional role of this accumulation remains unknown. This study
investigates whether subcellular localization of tRNAs plays a role in signaling nutritional stress and autophagy. We report
that human fibroblasts that accumulate tRNA in the nucleus due to downregulation of their transportin, Xpo-t, show
reduced mTO RC1 activity and upregulated autophagy. This suggests that sub-cellular localization of tRNAs may regulate
an unicellular response to starvation independently of the cellular nutritional status.
CELLULAR REPROGRAMMING: Current Technology, Perspectives and Generation of iP...Munna Yadav
Reprogramming refers to erasure and remodelling of epigenetic marks, such as DNA methylation, during mammalian development. Exposure of a differentiated cell nucleus to the cytoplasm of less differentiated cell leads to erasure of the stable epigenetic code that maintains the differentiated cell’s phenotype. Gradually, the nucleus acquires a new epigenetic code that is characteristic of the dedifferentiated cell donating the cytoplasm, a process termed cellular reprogramming.
First aid for usmle step 1 with uworld and nbme notes sampleusmlematerialsnet
First Aid For USMLE Step 1 with Uworld and NBME Notes
Download Full book from > usmlematerials.net
Pages: 798
Series: First Aid for the USMLE Step 1
NBMEs and Uworld Notes are added to this file.