Record ID | marc_columbia/Columbia-extract-20221130-015.mrc:10018099:5762 |
Source | marc_columbia |
Download Link | /show-records/marc_columbia/Columbia-extract-20221130-015.mrc:10018099:5762?format=raw |
LEADER: 05762cam a22005294a 4500
001 7024464
005 20221130203442.0
008 080923s2009 nyua b 001 0 eng
010 $a 2008939875
015 $aGBA8B9138$2bnb
016 7 $a101496602$2DNLM
016 7 $a014777722$2Uk
020 $a9781603273091 (hbk. : alk. paper)
020 $a1603273093 (hbk. : alk. paper)
020 $a9781603273107 (e-ISBN)
020 $a1603273107 (e-ISBN)
029 0 $aNLM$b101496602
029 1 $aBWX$bR1770012
035 $a(OCoLC)ocn262719630
035 $a(NNC)7024464
035 $a(OCoLC)262719630
035 $a7024464
040 $aNLM$cNLM$dUKM$dYDXCP$dSCB$dCUS$dPAU$dCDX$dBWX$dOrLoB-B
042 $apcc
050 4 $aQH506$b.M45 v.528 2009
060 00 $aW1$bME9616J v.528 2009
060 10 $aQU 55.7$bM5333 2009
082 04 $a572.696$222
245 00 $aMembrane proteomics :$bmethods and protocols /$cedited by Matthew J. Peirce and Robin Wait.
260 $aNew York, NY :$bHumana Press,$c2009.
300 $axiii, 342 pages :$billustrations.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
490 1 $aMethods in molecular biology,$x1064-3745 ;$v528
504 $aIncludes bibliographical references and index.
505 00 $gPt. I.$tIn Silico Methods for Prediction of Membrane Protein Hydrophobicity and Topology -- $g1.$tOnline Tools for Predicting Integral Membrane Proteins /$rHenry Bigelow and Burkhard Rost -- $g2.$tIn Silico Identification of Novel G Protein Coupled Receptors /$rMatthew N. Davies and Darren R. Flower -- $g3.$tTranscriptome-Based Indentification of Candidate Membrane Proteins /$rEdward J. Evans, Lawrence Hene, Mai Vuong, S. Hussain I. Abidi and Simon J. Davis -- $gPt. II.$tExtraction and Purification of Membrane Proteins -- $g4.$tSeparation of Thylakoid Membrane Proteins by Sucrose Gradient Ultracentrifugation or Blue Native-SDS-PAGE Two-Dimensional Electrophoresis /$rGian Maria D Amici, Christian G. Huber and Lello Zolla -- $g5.$tExtraction of Yeast Mitochondrial Membrane Proteins by Solubilization and Detergent/Polymer Aqueous Two-Phase Partitioning /$rHenrik Everberg, Niklas Gustavsson and Folke Tjerneld -- $g6.$t16-BAC/SDS-PAGE Analysis of Membrane Proteins of Yeast Mitochondria Purified by Free Flow Electrophoresis /$rRalf J. Braun, Norbert Kinkl, Hans Zischka and Marius Ueffing -- $g7.$tSequential Detergent Extraction Prior to Mass Spectrometry Analysis /$rFiona M. McCarthy, Amanda M. Cooksey and Shane C. Burgess -- $g8.$tEnrichment of Brian Plasma Membranes by Affinity Two-Phase Partitioning /$rJens Schindler and Hans Gerd Nothwang -- $g9.$tProtocol to Enrich and Analyze Plasma Membrane Proteins /$rJacek R. Wisniewski -- $g10.$tProteomic Analysis of the Lymphocyte Plasma Membrane Using Cell Surface Biotinylation and Solution-Phase Isoelectric Focusing /$rMatthew J. Peirce, Andrew P. Cope and Robin Wait -- $g11.$tIdentification of Target Membrane Proteins as Detected by Phage Antibodies /$rCecile A. W. Geuijen, Arjen Q. Bakker and John de Kruif -- $g12.$tMembrane Protease Degradomics: Proteomic Identification and Quantification of Cell Surface Protease Substrates /$rGeorgina S. Butler, Richard A. Dean, Derek Smith and Christopher M. Overall -- $g13.$tPurification of Basolateral Integral Membrane Proteins by Cationic Colloidal Silica-Based Apical Membrane Subtraction /$rRobert J. A. Goode and Richard J. Simpson -- $g14.$tMoving Closer to the Lipid Raft Proteome Using Quantitative Proteomics /$rLeonard J. Foster -- $g15.$tUse of Sequential Chemical Extractions to Purify Nuclear Membrane Proteins for Proteomics Identification /$rNadia Korfali, Elizabeth A. L. Fairley, Selene K. Swanson, Laurence Florens and Eric C. Schirmer -- $g16.$tIsolation of Extracellular Membranous Vesciles for Proteomic Analysis /$rRommel A. Mathias, Justin W. Lim, Hong Ji and Richard J. Simpson -- $gPt. III.$tSeparation of Membrane Proteins -- $g17.$tEnrichment of Human Platelet Membranes for Proteomic Analysis /$rDavid W. Greening, Kristen M. Glenister, Rosemary L. Sparrow and Richard J. Simpson -- $g18.$tDetergents and Chaotropes for Protein Solubilization Before Two-Dimensional Electrophoresis /$rThierry Rabilloud -- $g19.$tTwo-Dimensional Separation of Membrane Proteins by 16-BAC-SDS-PAGE /$rHans Gerd Nothwang and Jens Schindler -- $gPt. IV.$tIdentification and Quantification of Membrane Proteins -- $g20.$tMudPIT Analysis: Application to Human Heart Tissue /$rKelli G. Kline and Christine C. Wu -- $g21.$tLiquid Chromatography MALDI MS/MS for Membrane Proteome Analysis /$rNan Wang, J. Bryce Young and Liang Li -- $g22.$tCysteinly-Tagging of Integral Membrane Proteins for Proteomic Analysis Using Liquid Chromatography-Tandem Mass Spectrometry /$rSrijeet K. Mitra and Michael B. Goshe -- $g23.$tQuantitative Proteomics Analysis of Pancreatic Zymogen Granule Membrane Proteins /$rXuequn Chen and Philip C. Andrews.
650 12 $aMembrane Proteins$xanalysis.$0https://id.nlm.nih.gov/mesh/D008565Q000032
650 22 $aProteomics$xmethods.$0https://id.nlm.nih.gov/mesh/D040901Q000379
650 12 $aMembrane Proteins.$0https://id.nlm.nih.gov/mesh/D008565
650 22 $aProteomics.$0https://id.nlm.nih.gov/mesh/D040901
650 0 $aMembrane proteins.$0http://id.loc.gov/authorities/subjects/sh85083471
650 0 $aProteomics.$0http://id.loc.gov/authorities/subjects/sh2002000814
700 1 $aPeirce, Matthew J.$0http://id.loc.gov/authorities/names/n2009180839
700 1 $aWait, Robin.$0http://id.loc.gov/authorities/names/n2009180840
830 0 $aMethods in molecular biology (Clifton, N.J.) ;$vv. 528.$0http://id.loc.gov/authorities/names/n92002874
852 00 $boff,hsl$hQH506$i.M56 v.528
852 00 $bsci$hQP552.M44$iM47 2009g