TNAU CRMD - A Customer Relationship Management datahouse for TNAUSenthil Natesan
Every great business starts with a great relationship. Every great relationship starts with You.
The strategy for establishing, developing and maintaining these relationships is CRM. (Customer Relationship Management).
The system that support this strategy is TNAU CRMD software.
TNAU CRMD offers unrivalled flexibility to design CRM applications and processes based on our needs.
TNAU CRMD - A Customer Relationship Management datahouse for TNAUSenthil Natesan
Every great business starts with a great relationship. Every great relationship starts with You.
The strategy for establishing, developing and maintaining these relationships is CRM. (Customer Relationship Management).
The system that support this strategy is TNAU CRMD software.
TNAU CRMD offers unrivalled flexibility to design CRM applications and processes based on our needs.
3D laser scanners from FARO use laser technology to deliver highly detailed 3D Documentation. 3D images of complex environments and geometries can be generated in mere minutes. Use them for accident reconstruction, 3D modelling of process plants, architectural preservation tasks, digital factory layouts or deformation monitoring.
SCENE 5.0 Scandatenverarbeitung in einer neuen DimensionFARO_Europe
Die 3D-Laserscanner von FARO liefern mithilfe modernster Lasertechnologie äußerst detailreiche 3D-Dokumente. In nur wenigen Minuten entstehen 3D-Bilder von komplexen Umgebungen und geometrischen Elementen. Sie können für die Unfallrekonstruktion, die 3D-Modellierung von Anlagen, architektonische Erhaltungsprojekte, digitale Fabriklayouts oder zur Überwachung von Verformungen genutzt werden.
Learn all about the latest developments in the
CGI (Computer Generated Imaging) and see how 3D documentation helps to
speed up visualisation processes and improves quality of animated imaging.
3D laser scanners from FARO use laser technology to deliver highly detailed 3D Documentation. 3D images of complex environments and geometries can be generated in mere minutes. Use them for accident reconstruction, 3D modelling of process plants, architectural preservation tasks, digital factory layouts or deformation monitoring.
MAGIC :Multiparent advanced generation intercross and QTL discovery Senthil Natesan
MAGIC or multiparent advanced generation inter-crosses is an experimental method that increases the precision with which genetic markers are linked to quantitative trait loci (QTL). This method was first introduced by (Mott et al., 2000) in animals as an extension of the advanced intercrossing (AIC) approach suggested by (Darvasi and Soller , 1995)for fine mapping multiple QTLs for multiple traits. Advanced Intercrossed Lines (AILs) are generated by randomly and sequentially intercrossing a population initially originating from a cross between two inbred lines.
MAGIC involves multiple parents, called founder lines, rather than bi-parental control. AILs increase the recombination events in small chromosomal regions for the purpose of fine mapping. These lines are then cycled through multiple generations of outcrossing. Each generation of random mating reduces the extent of linkage disequilibrium (LD), allowing the QTL to be mapped more accurately.
Use of DNA barcoding and its role in the plant species/varietal Identifica...Senthil Natesan
Plant DNA barcoding research is shifting beyond performance comparisons of different DNA regions towards practical applications. The main aim of DNA barcoding is to establish a shared community resource of DNA sequences that can be used for organismal identification and taxonomic clarification. This approach was successfully pioneered in animals using a portion of the cytochrome oxidase 1(CO1) mitochondrial gene. In plants, establishing a standardized DNA barcoding system has been more challenging. The studies on cucumis sp for the application of DNA barcode shows the possibility of discrimination at species level not the varietal level using the matK gene barcode. The phylogenetic tree constructed by using matK gene sequences clearly differentiated the species C. sativus and C. melo which will help for the future application in cucumis taxonomy and phylogeny studies
Being sessile, plants are constantly exposed to changes in temperature and other abiotic stress factors. The temperature stress experienced by plants can be classified into three types: those occurring at (a) temperature below freezing (b) low temperature above freezing and (c) high temperature. The plants must adapt to them in other ways. The biological substances that are deeply related to these stresses, such as heat shock proteins, glycine betaine as a compatible solute, membrane lipids etc.and also detoxifiers of active oxygen species, contribute to temperature stress tolerance in plants. Rapid advances in Molecular Genetic approaches have enabled genes to be cloned, both from prokaryotes and directly from plants themselves, that are thought to provide the key to the mechanism of temperature adaptation (Iba et al., 2002).
The accumulation of heat shock proteins under the control of heat stress transcription factors is assumed to play a central role in the heat stress response and in acquired thermotolerance in plants (Kotak et al., 2007). The pattern of protein synthesis during cold acclimation is very dissimilar to the heat shock proteins in many ways. Different low temperature stress proteins, such as Anti-freeze proteins or thermal hysteresis proteins (THPs) and cold shock domain proteins etc. are accumulated in plant cell and are frequently correlated with enhanced cold tolerance ( Guy, 1999).
The heat stress-induced dehydrin proteins (DHNs) expression and their relationship with the water relations of sugarcane (Saccharum officinarum L.) leaves were studied to investigate the adaptation to heat stress in plants (Wahid and Close, 2007). In order to get an in vitro evidence of Hsc70 functioning as a molecular chaperone during cold stress, a cold-inducible spinach cytosolic Hsc70 was subcloned into a protein expression vector and the recombinant protein was expressed in bacterial cells. Results suggest that the molecular chaperone Hsc70 may have a functional role in plants during low temperature stress (Zhang and Guy, 2006). To analyze the least and most strongly interacting stress with Hsps and Hsfs, a transcriptional profiling of Arabidopsis Hsps and Hsfs has been done (Swindell et al., 2007).
As plants receive complex of stress factors together, therefore in future research, emphasis should be placed on such cases where tolerance is attempted to different stress factors simultaneously by employing sophisticated techniques.
3D laser scanners from FARO use laser technology to deliver highly detailed 3D Documentation. 3D images of complex environments and geometries can be generated in mere minutes. Use them for accident reconstruction, 3D modelling of process plants, architectural preservation tasks, digital factory layouts or deformation monitoring.
SCENE 5.0 Scandatenverarbeitung in einer neuen DimensionFARO_Europe
Die 3D-Laserscanner von FARO liefern mithilfe modernster Lasertechnologie äußerst detailreiche 3D-Dokumente. In nur wenigen Minuten entstehen 3D-Bilder von komplexen Umgebungen und geometrischen Elementen. Sie können für die Unfallrekonstruktion, die 3D-Modellierung von Anlagen, architektonische Erhaltungsprojekte, digitale Fabriklayouts oder zur Überwachung von Verformungen genutzt werden.
Learn all about the latest developments in the
CGI (Computer Generated Imaging) and see how 3D documentation helps to
speed up visualisation processes and improves quality of animated imaging.
3D laser scanners from FARO use laser technology to deliver highly detailed 3D Documentation. 3D images of complex environments and geometries can be generated in mere minutes. Use them for accident reconstruction, 3D modelling of process plants, architectural preservation tasks, digital factory layouts or deformation monitoring.
MAGIC :Multiparent advanced generation intercross and QTL discovery Senthil Natesan
MAGIC or multiparent advanced generation inter-crosses is an experimental method that increases the precision with which genetic markers are linked to quantitative trait loci (QTL). This method was first introduced by (Mott et al., 2000) in animals as an extension of the advanced intercrossing (AIC) approach suggested by (Darvasi and Soller , 1995)for fine mapping multiple QTLs for multiple traits. Advanced Intercrossed Lines (AILs) are generated by randomly and sequentially intercrossing a population initially originating from a cross between two inbred lines.
MAGIC involves multiple parents, called founder lines, rather than bi-parental control. AILs increase the recombination events in small chromosomal regions for the purpose of fine mapping. These lines are then cycled through multiple generations of outcrossing. Each generation of random mating reduces the extent of linkage disequilibrium (LD), allowing the QTL to be mapped more accurately.
Use of DNA barcoding and its role in the plant species/varietal Identifica...Senthil Natesan
Plant DNA barcoding research is shifting beyond performance comparisons of different DNA regions towards practical applications. The main aim of DNA barcoding is to establish a shared community resource of DNA sequences that can be used for organismal identification and taxonomic clarification. This approach was successfully pioneered in animals using a portion of the cytochrome oxidase 1(CO1) mitochondrial gene. In plants, establishing a standardized DNA barcoding system has been more challenging. The studies on cucumis sp for the application of DNA barcode shows the possibility of discrimination at species level not the varietal level using the matK gene barcode. The phylogenetic tree constructed by using matK gene sequences clearly differentiated the species C. sativus and C. melo which will help for the future application in cucumis taxonomy and phylogeny studies
Being sessile, plants are constantly exposed to changes in temperature and other abiotic stress factors. The temperature stress experienced by plants can be classified into three types: those occurring at (a) temperature below freezing (b) low temperature above freezing and (c) high temperature. The plants must adapt to them in other ways. The biological substances that are deeply related to these stresses, such as heat shock proteins, glycine betaine as a compatible solute, membrane lipids etc.and also detoxifiers of active oxygen species, contribute to temperature stress tolerance in plants. Rapid advances in Molecular Genetic approaches have enabled genes to be cloned, both from prokaryotes and directly from plants themselves, that are thought to provide the key to the mechanism of temperature adaptation (Iba et al., 2002).
The accumulation of heat shock proteins under the control of heat stress transcription factors is assumed to play a central role in the heat stress response and in acquired thermotolerance in plants (Kotak et al., 2007). The pattern of protein synthesis during cold acclimation is very dissimilar to the heat shock proteins in many ways. Different low temperature stress proteins, such as Anti-freeze proteins or thermal hysteresis proteins (THPs) and cold shock domain proteins etc. are accumulated in plant cell and are frequently correlated with enhanced cold tolerance ( Guy, 1999).
The heat stress-induced dehydrin proteins (DHNs) expression and their relationship with the water relations of sugarcane (Saccharum officinarum L.) leaves were studied to investigate the adaptation to heat stress in plants (Wahid and Close, 2007). In order to get an in vitro evidence of Hsc70 functioning as a molecular chaperone during cold stress, a cold-inducible spinach cytosolic Hsc70 was subcloned into a protein expression vector and the recombinant protein was expressed in bacterial cells. Results suggest that the molecular chaperone Hsc70 may have a functional role in plants during low temperature stress (Zhang and Guy, 2006). To analyze the least and most strongly interacting stress with Hsps and Hsfs, a transcriptional profiling of Arabidopsis Hsps and Hsfs has been done (Swindell et al., 2007).
As plants receive complex of stress factors together, therefore in future research, emphasis should be placed on such cases where tolerance is attempted to different stress factors simultaneously by employing sophisticated techniques.
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