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Methods in Molecular Medicine - 108: Hypertension

Methods and Protocols

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  • 501pages
  • 18 heures de lecture

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A collection of new and essential molecular techniques for cardiovascular research. These readily reproducible methods range widely from producing congenic, consomic, transgenic, and knockout models of hypertension to the gene transfer of specific genetic material using nonviral (polymers, liposomes, and antisense agents) and adenoviral vectors. Additional techniques described include single nucleotide polymorphism (SNP) genotyping, RNA interference, microarray analysis, pharmacogenetics, and pharmacogenomics for the genetic dissection of hypertension, as well as a practical method for deriving cardiomyocytes from embryonic stem cells that would serve as replacement cells for those damaged by hypertension or heart attack. The book offers both novice and experienced hypertension researchers an indispensable collection of readily reproducible techniques for successful research, work that has already dramatically improved the outlook for hypertensive patients, and promises much future success.

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Methods in Molecular Medicine - 108: Hypertension, Jérôme P. Fennell, Andrew H. Baker

Langue
Année de publication
2005
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(rigide),
État du livre
Abîmé
Prix
27,86 €

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Titre
Methods in Molecular Medicine - 108: Hypertension
Sous-titre
Methods and Protocols
Langue
Anglais
Éditeur
Humana Press
Publié
2005
Format
rigide
Pages
501
ISBN10
1588293238
ISBN13
9781588293237
Séries
Mots clés
Description
A collection of new and essential molecular techniques for cardiovascular research. These readily reproducible methods range widely from producing congenic, consomic, transgenic, and knockout models of hypertension to the gene transfer of specific genetic material using nonviral (polymers, liposomes, and antisense agents) and adenoviral vectors. Additional techniques described include single nucleotide polymorphism (SNP) genotyping, RNA interference, microarray analysis, pharmacogenetics, and pharmacogenomics for the genetic dissection of hypertension, as well as a practical method for deriving cardiomyocytes from embryonic stem cells that would serve as replacement cells for those damaged by hypertension or heart attack. The book offers both novice and experienced hypertension researchers an indispensable collection of readily reproducible techniques for successful research, work that has already dramatically improved the outlook for hypertensive patients, and promises much future success.