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- Bookedited by Jose R. Botella, Miguel A. Botella.Contents:
Suppressor screens in Arabidopsis / Xin Li and Yuelin Zhang
Quantitative reverse transcription-qPCR-based gene expression analysis in plants / Heithem Ben Abdallah and Petra Bauer
DNA-binding factor target identification by chromatin immunoprecipitation (ChIP) in plants / David Posé and Levi Yant
Identification of genes responsible for natural variation in volatile content using next-generation sequencing technology / Iraida Amaya, Jeremy Pillet, and Kevin M. Folta
Micro-tom tomato as an alternative plant model system : mutant collection and efficient transformation / Masahito Shikata and Hiroshi Ezura
Culture of the tomato micro-tom cultivar in greenhouse / Christophe Rotha ... [et al.]
Virus-induced gene silencing as a tool to study tomato fruit biochemistry / Elio Fantini and Giovanni Giuliano
Simplified and rapid method for the isolation and transfection of Arabidopsis leaf mesophyll protoplasts for large-scale applications / Arnaldo L. Schapire and L. Maria Lois
Preparation of epidermal peels and guard cell protoplasts for cellular, electrophysiological, and -omics assays of guard cell function / Mengmeng Zhu ... [et al.]
Application of variable angle total internal reflection fluorescence microscopy to investigate protein dynamics in intact plant cells / Yinglang Wan ... [et al.]
Immunoprecipitation of plasma membrane receptor-like kinases for identification of phosphorylation sites and associated proteins / asuhiro Kadota, Alberto P. Macho, and Cyril Zipfel
Yeast three-hybrid system for the detection of protein-protein interactions / Natsumi Maruta, Yuri Trusov, and Jose R. Botella
Cautions in measuring in vivo interactions using FRET and BiFC in Nicotiana benthamiana / Meral Tunc-Ozdemir, Yan Fu, and Alan M. Jones
Analysis of protein-lipid interactions using purified C2 domains / Jessica Pérez-Sancho ... [et al.]
Assessing kinase activity in plants with in-gel kinase assays / Pengcheng Wang and Jian-Kang Zhu
Analyses of plant UDP-dependent glycosyltransferases to identify their volatile substrates using recombinant proteins / Yusuke Kamiyoshihara, Denise M. Tieman, and Harry J. Klee
Competitive index : mixed infection-based virulence assays for genetic analysis in Pseudomonas syringae-plant interactions / Alberto P. Macho ... [e tal.]
Simplified assays for evaluation of resistance to Alternaria brassicicola and turnip mosaic virus / Yuri Trusov ... [et al.]
Simultaneous determination of plant hormones by GC-TOF-MS / José G. Vallarino and Sonia Osorio.Digital Access Springer 2016 - Book[Redaktion: Herwig Förder et al.Contents:
Bd.
1. 1836-1849.--Bd.
2. 1849-1851.--Bd.
3. 1851-1852.Print 1970- - ArticleLisowska-Myjak B, Tomaszewski L, Hryckiewicz L.Comp Biochem Physiol B. 1978;61(4):545-52.1. Arginase was found to be present in the intestine in all species of Annelida, Arthropoda and Chordata studied. 2. The activity of intestinal arginase differs from species to species, the differences reaching two orders of magnitude (100 x). 3. The highest activity of intestinal arginase was observed in the rodents (mouse, rat, hamster). 4. In animals in which the enzyme activity was high or moderately high, arginase activity showed topographical differentiation along the long axis of the intestine.