| Record ID | marc_loc_2016/BooksAll.2016.part41.utf8:134406645:6091 |
| Source | Library of Congress |
| Download Link | /show-records/marc_loc_2016/BooksAll.2016.part41.utf8:134406645:6091?format=raw |
LEADER: 06091cam a22005657i 4500
001 2013957133
003 DLC
005 20140906084819.0
008 131209t20142014nyua b 001 0 eng d
010 $a 2013957133
016 7 $a016632413$2Uk
020 $a9781627037907 (alk. paper)
020 $a162703790X (alk. paper)
020 $z9781627037914 (eBook)
035 $a(OCoLC)ocn861216121
040 $aBTCTA$beng$cBTCTA$erda$dRML$dOCLCO$dUKMGB$dYDXCP$dIDL$dOCLCO$dN15$dOCLCO$dNUI$dDEBBG$dNLGGC$dDLC
042 $alccopycat
050 00 $aRC268.44.R37$bR3727 2014
082 00 $a571.7/4$223
245 00 $aRas signaling :$bmethods and protocols /$cedited by Lorenza Trabalzini, Department of Biotechnology, Chemistry, and Pharmacy, University of Siena, Siena, Italy, Saverio Francesco Retta, Department of Clinical and Biological Sciences, University of Torino, Torino, Italy.
264 1 $aNew York :$bHumana Press,$c[2014]
264 4 $c©2014
300 $axii, 425 pages :$billustrations (some color) ;$c27 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
490 1 $aMethods in molecular biology,$x1064-3745 ;$v1120
490 1 $aSpringer protocols,$x1949-2448
504 $aIncludes bibliographical references and index.
505 00 $tThe Ras superfamily of small GTPases : the unlocked secrets /$rLuca Goitre [and three others] --$tA novel method for the production of fully modified K-Ras 4B /$rTanmay S. Chavan [and four others] --$tMetabolic labeling of Ras with tritiated palmitate to monitor palmitoylation and depalmitoylation /$rFrederick D. Tsai [and three others] --$tUbiquitination of Rac1 by inhibitors of apoptosis (IAPs) /$rTripat Kaur Oberoi-Khanuja and Krishnaraj Rajalingam --$tRas GTPases are both regulators and effectors of redox agents /$rElisa Ferro [and four others] --$tBiophysical and proteomic characterization strategies for cysteine modifications in Ras GTPases /$rG. Aaron Hobbs, Harsha P. Gunawardena, and Sharon L. Campbell --$tUse of the yeast two-hybrid technology to isolate molecular interactions of Ras GTPases /$rElisa Ferro, Eva Baldini, and Lorenza Trabalzini --$tScreening for MAPK modulators using an In-Cell Western assay /$rSimon Schnaiter [and seven others] --$tBehavioral methods for the study of the Ras-ERK pathway in memory formation and consolidation : passive avoidance and novel object recognition tests /$rRaffaele d'Isa, Riccardo Brambilla, and Stefania Fasano --$tFunctional phosphoproteomics of oncogenic KRAS signaling /$rPutty-Reddy Sudhir and Jeou-Yuan Chen --$tPull-down assay for analysis of integrin-mediated activation of Rap proteins in adherent platelets /$rGianni Francesco Guidetti and Mauro Torti --$tCombined pulldown and time-lapse microscopy studies for determining the role of Rap1 in the crosstalk between integrins and cadherins /$rLuca Goitre and Saverio Francesco Retta --$tFluorescence microscopy study of Rap1 subcellular localization /$rLuca Goitre, Valentina Cutano, and Saverio Francesco Retta --$tAn in vitro system to evaluate the scaffold function of the RalA effector protein RalBP1 /$rDavid F. Kashatus --$tAnalysis of the Rit subfamily GTPase-mediated signaling and neuronal differentiation and survival /$rGeng-Xian Shi and Catherine N. Kaminski --$tImmunofluorescence methods in studies of the GTPase Ran and its effectors in interphase and in mitotic cells /$rGiulia Guarguaglini, Valeria de Turris, and Patrizia Lavia --$tHigh-resolution scanning electron microscopy for the imaging of nuclear pore complexes and Ran-mediated transport /$rLihi Shaulov, Boris Fichtman, and Amnon Harel --$tEffector recruitment method to study spatially regulated activation of Ras and Rho GTPases /$rLauren P. Huff, Molly J. DeCristo, and Adrienne D. Cox --$tReal-time visualization and quantification of native Ras activation in single living cells /$rChristoph Biskup and Ignacio Rubio --$tNanoclustering and heterogeneous membrane diffusion of Ras studied by FRAP and RICS analysis /$rCamilo Guzmán, Maja Šolman, and Daniel Abankwa --$tAnalyzing the roles of Rho GTPases in cancer cell migration with a live cell imaging 3D-morphology-based assay /$rAudrey Colomba and Anne J. Ridley --$tAnalysis of Rho GTPase-induced localization of nanoscale adhesions using fluorescence nanoscopy /$rAnnica K.B. Gad [and three others] --$tYeast as a model for Ras signalling /$rRenata Tisi, Fiorella Belotti, and Enzo Martegani --$tMethods to study the Ras2 protein activation state and the subcellular localization of Ras-GTP in Saccharomyces cerevisiae /$rSonia Colombo and Enzo Martegani --$tRas proteins signaling in the early metazoan Dictyostelium discoideum /$rEnrico Bracco and Barbara Pergolizzi.
650 0 $aRas oncogenes$vLaboratory manuals.
650 0 $aRas proteins$vLaboratory manuals.
650 0 $aCellular signal transduction$vLaboratory manuals.
650 0 $aGuanosine triphosphatase$vLaboratory manuals.
650 0 $aGuanosine triphosphatase genes$vLaboratory manuals.
650 0 $aGTPase-activating protein$vLaboratory manuals.
650 0 $aCell transformation$vLaboratory manuals.
650 2 $aras Proteins$vLaboratory Manuals.
650 2 $aSignal Transduction$vLaboratory Manuals.
655 7 $aLaboratory Manuals.$2mesh
650 07 $aRas.$2gnd
650 07 $aSignaltransduktion.$2gnd
700 1 $aTrabalzini, Lorenza,$eeditor.
700 1 $aRetta, Saverio Francesco,$eeditor.
710 2 $aSpringer Science+Business Media,$ecopyright holder.
830 0 $aMethods in molecular biology (Clifton, N.J.) ;$vv. 1120,$x1064-3745
830 0 $aSpringer protocols (Series)$x1949-2448
856 $uhttp://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027257607&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA$zInhaltsverzeichnis
856 42 $3Publisher description$uhttp://www.loc.gov/catdir/enhancements/fy1410/2013957133-d.html
856 41 $3Table of contents only$uhttp://www.loc.gov/catdir/enhancements/fy1410/2013957133-t.html