| Record ID | harvard_bibliographic_metadata/ab.bib.13.20150123.full.mrc:1063106527:3577 |
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LEADER: 03577cam a2200409Ii 4500
001 013924021-7
005 20140204154122.0
008 130606s2013 nyua b 001 0 eng d
010 $a 2013945304
020 $a1627036369
020 $a9781627036368
020 $z9781627036375 (eBook)
035 0 $aocn847125726
040 $aYDXCP$erda$cYDXCP$dBTCTA$dRML$dIDL$dOCLCO$dCHVBK$dCDX$dOCLCO
050 4 $aQP551$b.S58 2013
082 04 $a547.75$223
245 00 $aSirtuins :$bmethods and protocols /$cedited by Matthew D. Hirschey.
264 1 $aNew York :$bHumana Press,$c[2013]
300 $axi, 314 pages :$billustrations (some colored)$c26 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
490 1 $aMethods in Molecular Biology ;$v1077
490 1 $aSpringer Protocols
504 $aIncludes bibliographical references and index.
505 00 $tIntroduction: sirtuins in aging and diseases /$rLeonard Guarente --$tSirtuins in yeast: phenotypes and tools /$rScott Tsuchiyama [and four others] --$tC. elegans sirtuins /$rMohan Viswanathan and Heidi A. Tissenbaum --$tGenetic and biochemical tools for investigating sirtuin function in Drosophila melanogaster /$rJason G. Wood, Rachel Whitaker, and Stephen L. Helfand --$tGenerating mammalian sirtuin tools for protein-interaction analysis /$rKathleen A. Hershberger [and three others] --$tMass spectrometry-based detection of protein acetylation /$rYu Li [and three others] --$tSILAC-based quantification of Sirt1-responsive lysine acetylome /$rYue Chen, Gozde Colak, and Yingming Zhao --$tTargeted quantitation of acetylated lysine peptides by selected reaction monitoring mass spectrometry /$rMatthew J. Rardin, Jason M. Held, and Bradford W. Gibson --$tIdentification of deacetylase substrates with the biotin switch approach /
505 00 $rJ. Will Thompson, Alex Robeson, and Joshua L. Andersen --$tAssaying chromatin sirtuins /$rLei Zhong [and four others] --$tMeasurement of sirtuin enzyme activity using a substrate-agnostic fluorometric nicotinamide assay /$rBasil P. Hubbard and David A. Sinclair --$tDetecting sirtuin-catalyzed deacylation reactions using 32P-labeled NAD and thin-layer chromatography /$rAnita Zhu, Xiaoyang Su, and Hening Lin --$tChemical acetylation and deacetylation /$rKristofer S. Fritz --$tAccurate measurement of nicotinamide adenine dinucleotide (NAD+) with high-performance liquid chromatography /$rJun Yoshino and Shin-ichiro Imai --$tIn vivo measurement of the acetylation state of sirtuin substrates as a proxy for sirtuin activity /$rJohn Dominy, Pere Puigserver, and Carles Cantó --$tOxygen flux analysis to understand the biological function of sirtuins /$rDongning Wang [and three others] --$tThe emerging links between sirtuins and autophagy /
505 00 $rIn Hye Lee, Jeanho Yun, and Toren Finkel --$tMethods to study the role of sirtuins in genome stability /$rPaloma Martínez-Redondo and Alejandro Vaquero --$tCircadian measurements of sirtuin biology /$rKathryn Moynihan Ramsey [and five others] --$tUtilizing calorie restriction to evaluate the role of sirtuins in healthspan and lifespan of mice /$rJessica Curtis and Rafael de Cabo.
650 2 $aSirtuins.
650 0 $aProteins.
655 7 $aLaboratory Manuals.$2mesh
700 1 $aHirschey, Matthew D.,$eeditor.
710 2 $aSpringer Science+Business Media,$ecopyright holder.
830 0 $aMethods in molecular biology (Clifton, N.J.) ;$vv. 1077.
830 0 $aSpringer protocols (Series)
988 $a20140204
906 $0OCLC