TY  - BOOK
AU  - Munnik,Teun
AU  - Heilmann,Ingo
TI  - Plant lipid signaling protocols
T2  - Methods in molecular biology,
SN  - 9781627034012
AV  - QK725 .P53 2013
U1  - 571.7/4 23
PY  - 2013///
CY  - New York
PB  - Humana Press
KW  - Plant cellular signal transduction
KW  - Laboratory manuals
KW  - Plant lipids
KW  - Metabolism
KW  - Physical sciences
KW  - Plants
KW  - Botany
KW  - Chemistry
KW  - Lipids
KW  - Eukaryota
KW  - Publication Formats
KW  - Natural Science Disciplines
KW  - Chemicals and Drugs
KW  - Organisms
KW  - Publication Characteristics
KW  - Disciplines and Occupations
KW  - Phenomena and Processes
KW  - Laboratory Manuals
KW  - Lipid Metabolism
KW  - Transduction du signal cellulaire chez les plantes
KW  - Manuels de laboratoire
KW  - Plantes
KW  - Lipides
KW  - Métabolisme
KW  - Sciences physiques
KW  - Chimie
KW  - metabolism (biological concept)
KW  - aat
KW  - physical sciences
KW  - vegetation
KW  - chemistry
KW  - lipid
KW  - fast
KW  - Life sciences
KW  - Plant Sciences
KW  - plantkunde
KW  - planten
KW  - plants
KW  - lipiden
KW  - lipids
KW  - signaaltransductie
KW  - signal transduction
KW  - plantencelbiologie
KW  - plant cell biology
KW  - Plant Cell Biology
KW  - Plantencelbiologie
KW  - Laboratory Manual
KW  - lcgft
KW  - rvmgf
N1  - Includes bibliographical references and index; Analyzing plant signaling phospholipids through 32Pi-labeling and TLC; Teun Munnik and Xavier Zarza --; Analysis of D3-,4-,5-phosphorylated phosphoinositides using HPLC; Teun Munnik --; Mass measurement of polyphosphoinositides by thin-layer and gas chromatography; Mareike Heilmann and Ingo Heilmann --; Measurement of inositol (1,4,5) trisphosphate in plant tissues by a competitive receptor binding assay; Ingo Heilmann and Imara Y. Perera --; Quantification of diacylglycerol by mass spectrometry; Katharina vom Dorp, Isabel Dombrink, and Peter Dörmann --; Distinguishing phosphatidic acid pools from de novo synthesis, PLD, and DGK; Steven A. Arisz and Teun Munnik --; Use of phospholipase A2 for the production of lysophospholipids; Steven A. Arisz and Teun Munnik --; Analysis and quantification of plant membrane lipids by thin-layer chromatography and gas chromatography; Vera Wewer, Peter Dörmann, and Georg Hölzl --; Lipidomic analysis of plant membrane lipids by direct infusion tandem mass spectrometry; Sunitha Shiva [and others] --; Detection and quantification of plant sphingolipids by LC-MS; Jonathan E. Markham --; Analysis of defense signals in Arabidopsis thaliana leaves by ultra-performance liquid chromatography/tandem mass spectrometry : jasmonates, salicylic acid, abscisic acid; Nadja Stingl [and others] --; Analysis of fatty acid amide hydrolase activity in plants; Sang-Chul Kim, Lionel Faure, and Kent D. Chapman --; Ionization behavior of polyphosphoinositides determined via the preparation of pH titration curves using solid-state 31P NMR; Zachary T. Graber and Edgar E. Kooijman --; Phosphatidylinositol synthase activity from plant membrane fractions and from E. coli- expressed recombinant peptides; Sylvie Collin and Françoise Cochet --; Phosphatidylinositol 4-kinase and phosphatidylinositol 4-phosphate 5-kinase assays; Yang Ju Im [and others] --; Assaying inositol and phosphoinositide phosphatase enzymes; Janet L. Donahue, Mustafa Ercetin, and Glenda E. Gillaspy --; Determination of phospholipase C activity in vitro; S.M. Teresa Hernández-Sotomayor and J. Armando Muñoz-Sanchez --; Assaying nonspecific phospholipase C activity; P řemysl Pejchar, Günther F.E. Scherer, and Jan Martinec --; Assaying different types of plant phospholipase D activities in vitro; Kirk L. Pappan and Xuemin Wang --; Measuring PLD activity in vivo; Teun Munnik and Ana M. Laxalt --; Assaying plant phosphatidic acid phosphatase activity; Yuki Nakamura --; Assay of phospholipase A activity; Michael Heinze and Werner Roos --; Lipid-binding analysis using a fat blot assay; Teun Munnik and Magdalena Wierzchowiecka --; Liposome-binding assays to assess specificity and affinity of phospholipid-protein interactions; Magdalena M. Julkowska, Johanna M. Rankenberg, and Christa Testerink --; Lipid affinity beads : from identifying new lipid binding proteins to assessing their binding properties; Fionn McLoughlin and Christa Testerink --; Using genetically encoded fluorescent reporters to image lipid signalling in living plants; Joop E.M. Vermeer and Teun Munnik --; Imaging changes in cytoplasmic calcium using the yellow cameleon 3.6 biosensor and confocal microscopy; Sarah J. Swanson and Simon Gilroy
N2  - As scientist begin to understand the complexity of lipid signaling and its roles in plant biology, there is an increasing interest in their analysis. Due to the low abundancy and transient nature of some of these hydrophobic compounds, this is not always easy. In Plant Lipid Signaling Protocols, expert researchers in the field detail experimental approaches by which plant signaling lipids can be studied. These methods and techniques include analysis of plant signaling lipids, including detailed protocols to detect various relevant compounds by targeted or non-targeted approaches; to assay relevant enzyme activities in biological material or using recombinant enzymes; to test for specific binding of signaling lipids to protein partners; or to visualize signaling lipids or lipid-derived signals in living plant cells. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Plant Lipid Signaling Protocols aids plant researchers in the continuing to study the roles of lipid signals
UR  - https://link-springer-com.libraryproxy.ist.ac.at/10.1007/978-1-62703-401-2
ER  -