A sub-proteome of Arabidopsis thaliana mature stems trapped on Concanavalin A is enriched in cell wall glycoside hydrolases.
about
Arabidopsis plasmodesmal proteomeThe Arabidopsis tonoplast is almost devoid of glycoproteins with complex N-glycans, unlike the rat lysosomal membranePlant Cell Wall Proteins: A Large Body of Data, but What about Runaways?Brassinin oxidase, a fungal detoxifying enzyme to overcome a plant defense -- purification, characterization and inhibition.Quantitative proteomics reveals protein profiles underlying major transitions in aspen wood developmentHormone Distribution and Transcriptome Profiles in Bamboo Shoots Provide Insights on Bamboo Stem Emergence and Growth.A new picture of cell wall protein dynamics in elongating cells of Arabidopsis thaliana: confirmed actors and newcomersTranscriptomic analysis of Arabidopsis developing stems: a close-up on cell wall genesPlant Lectins and Lectin Receptor-Like Kinases: How Do They Sense the Outside?Towards characterization of the glycoproteome of tomato (Solanum lycopersicum) fruit using Concanavalin A lectin affinity chromatography and LC-MALDI-MS/MS analysis.The plant pathogen Xanthomonas campestris pv. campestris exploits N-acetylglucosamine during infectionBroad-range glycosidase activity profilingGlycoproteome of elongating cotton fiber cells.Quantitative proteomics reveals the effect of protein glycosylation in soybean root under flooding stress.Expression-based and co-localization detection of arabinogalactan protein 6 and arabinogalactan protein 11 interactors in Arabidopsis pollen and pollen tubesProteome readjustments in the apoplastic space of Arabidopsis thaliana ggt1 mutant leaves exposed to UV-B radiation.Functional analysis of the type 3 effector nodulation outer protein L (NopL) from Rhizobium sp. NGR234: symbiotic effects, phosphorylation, and interference with mitogen-activated protein kinase signalingAn improved protocol to study the plant cell wall proteome.Identifying the ionically bound cell wall and intracellular glycoside hydrolases in late growth stage Arabidopsis stems: implications for the genetic engineering of bioenergy cropsArabidopsis thaliana root cell wall proteomics: Increasing the proteome coverage using a combinatorial peptide ligand library and description of unexpected Hyp in peroxidase amino acid sequences.Cell wall proteome of sugarcane stems: comparison of a destructive and a non-destructive extraction method showed differences in glycoside hydrolases and peroxidases.A workflow for large-scale empirical identification of cell wall N-linked glycoproteins of tomato (Solanum lycopersicum) fruit by tandem mass spectrometryCharacterization of protein N-glycosylation by tandem mass spectrometry using complementary fragmentation techniquesAnalytical technologies for identification and characterization of the plant N-glycoproteome.Proteomic analysis of cell walls of two developmental stages of alfalfa stemsCell wall proteomics of cropsGlycoside Hydrolase Activities in Cell Walls of Sclerenchyma Cells in the Inflorescence Stems of Arabidopsis thaliana Visualized in SituA comparative study of lectin affinity based plant N-glycoproteome profiling using tomato fruit as a model.Protein Dynamics in the Plant Extracellular Space.Extraction and Characterization of Extracellular Proteins and Their Post-Translational Modifications from Arabidopsis thaliana Suspension Cell Cultures and Seedlings: A Critical Review.The secreted plant N-glycoproteome and associated secretory pathwaysUncovering plant-pathogen crosstalk through apoplastic proteomic studies.Exogenous Auxin Elicits Changes in the Arabidopsis thaliana Root Proteome in a Time-Dependent Manner.Arabidopsis Regenerating Protoplast: A Powerful Model System for Combining the Proteomics of Cell Wall Proteins and the Visualization of Cell Wall Dynamics.Hippophae rhamnoides N-glycoproteome analysis: a small step towards sea buckthorn proteome mining.Plant cell wall proteomics: the leadership of Arabidopsis thaliana.VqDUF642, a gene isolated from the Chinese grape Vitis quinquangularis, is involved in berry development and pathogen resistance.Unraveling sterol-dependent membrane phenotypes by analysis of protein abundance-ratio distributions in different membrane fractions under biochemical and endogenous sterol depletion.Gibberellic acid-induced aleurone layers responding to heat shock or tunicamycin provide insight into the N-glycoproteome, protein secretion, and endoplasmic reticulum stress.AtBXL1 encodes a bifunctional beta-D-xylosidase/alpha-L-arabinofuranosidase required for pectic arabinan modification in Arabidopsis mucilage secretory cells.
P2860
Q28477834-952762B7-B254-4436-8804-2D33DE5886DEQ28603098-55BAD2E1-1DEB-487D-A0E0-9D097296F12BQ31169016-420A4EF8-6BFB-4DA6-8DE3-29F20EC3D0BFQ33343253-FD786C45-9313-4E1F-A3E1-9B9039208BD8Q33362596-64CCC406-50A4-4EEE-A5C7-55F4B9B64CB6Q33364793-E0AF1569-1CAB-474F-AA71-03348773B2B0Q33369973-1D931E6E-B8C8-404D-8F60-DE8D4BCD1E37Q33400554-DF885D6A-4E16-4082-9824-362F90318E16Q33838585-5EE74F66-AFC6-4ACA-A7C4-BE7BABCEC97CQ33838671-8E4E14F2-D962-45BA-84C8-945FC8CC95CCQ34237862-AD0F9107-6CD3-42CB-ADE1-47D59C39178FQ34303437-7DAAB68C-B60F-40A5-BE6A-109B59222A32Q34369847-0FC600EC-DD73-4375-AA1E-AC9A7EE4EC3FQ34530966-AA9E9589-0DE4-4FF6-B152-C6677E5FCAD2Q34538989-59F9A90B-216F-4344-92FC-E880B56FC5ABQ35211890-8A32BF72-F751-48CB-8F85-5543E2F48F67Q35213538-A4FD5FFA-4E58-4DC5-9A8B-DA34AB3BDFACQ35357268-B615302D-2428-4B2C-8D34-8AC16873FA77Q35599905-D7D84EE1-FF81-485B-815C-0FF0F209A779Q35842641-564973C2-F052-412B-AFE0-33FA79AB9E92Q35891095-1F59FDD6-34F6-429E-AFEE-55D322308E12Q35983646-0BB4C236-538B-4E32-AEEF-98D1DA0D46E3Q36002217-3A3DE71A-E163-47E2-A007-F07139DE0F2CQ36075158-7B2E2D30-A38D-43DC-9D44-5F3D9F4EEDE3Q36463545-7C5BCC46-8134-4A12-83B2-4C3F7B5FF3DDQ36593172-B5CCB85A-8EF8-44D1-8CFF-472AEC0A85F6Q36833603-FB844B38-E2FF-41F4-85BD-8C5F9C015477Q37563916-8084FBAF-6F53-4B22-BA20-8B8C5A949EF7Q37566400-BF767264-7654-483E-A87B-A93737004EE6Q37566417-EAB8D7B4-0B3B-4696-B267-D36DC72BDFF8Q38017660-F828AEDB-42C4-4D54-9805-83F52038B939Q38219413-EB803B3D-6070-4B8C-A5E8-66236FC14014Q38374160-0B7ADB14-F0C0-4BA2-ADC2-6904936F7333Q39156101-7AC4A994-9790-4201-9C56-EFDF52E75A5AQ39480422-86A06CBB-C7FA-4A0D-B275-6F552DB200C5Q40247925-F57EED7B-413A-44E3-ADE2-AD9D2B50705BQ40611110-6581CCED-F1DB-4476-97F1-646536FCB5CAQ41786063-FFFDA1B4-03A7-43ED-8DFC-CED407EAA981Q45922333-B12A0AC7-C500-4B9A-910F-EF999AB795F3Q46003340-3A7244F4-1D3B-4E51-A9A0-DB3DD868DDD5
P2860
A sub-proteome of Arabidopsis thaliana mature stems trapped on Concanavalin A is enriched in cell wall glycoside hydrolases.
description
2007 nî lūn-bûn
@nan
2007 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@ast
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@en
type
label
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@ast
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@en
prefLabel
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@ast
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@en
P2093
P2860
P356
P1476
A sub-proteome of Arabidopsis ...... ell wall glycoside hydrolases.
@en
P2093
Lise Jouanin
Luc Négroni
P Arsene der Garabedian
Zoran Minic
P2860
P304
P356
10.1093/JXB/ERM082
P577
2007-05-26T00:00:00Z