Salt stress upregulates periplasmic arabinogalactan proteins: using salt stress to analyse AGP function.
about
Role of proline in cell wall synthesis and plant development and its implications in plant ontogenyThe role of plant cell wall proteins in response to salt stressGlycosylation of a Fasciclin-Like Arabinogalactan-Protein (SOS5) Mediates Root Growth and Seed Mucilage Adherence via a Cell Wall Receptor-Like Kinase (FEI1/FEI2) Pathway in ArabidopsisGene Mining for Proline Based Signaling Proteins in Cell Wall of Arabidopsis thalianaProteome analysis of Physcomitrella patens exposed to progressive dehydration and rehydration.Plant Cell Wall Proteins: A Large Body of Data, but What about Runaways?Roles of arabinogalactan proteins in cotyledon formation and cell wall deposition during embryo development of Arabidopsis.Plant O-hydroxyproline arabinogalactans are composed of repeating trigalactosyl subunits with short bifurcated side chains.Arabinogalactan protein-rich cell walls, paramural deposits and ergastic globules define the hyaline bodies of rhinanthoid Orobanchaceae haustoria.Back to the future with the AGP-Ca2+ flux capacitor.Structures formed by a cell membrane-associated arabinogalactan-protein on graphite or mica alone and with Yariv phenylglycosides.Identification, characterization, and transcription analysis of xylogen-like arabinogalactan proteins in rice (Oryza sativa L.).Arabidopsis scaffold protein RACK1A interacts with diverse environmental stress and photosynthesis related proteinsTranscription profile of soybean-root-knot nematode interaction reveals a key role of phythormones in the resistance reaction.Characterization and expression analysis of a fiber differentially expressed Fasciclin-like arabinogalactan protein gene in Sea Island cotton fibersArabinogalactan proteins in root and pollen-tube cells: distribution and functional aspects.Quantitative and qualitative characteristics of cell wall components and prenyl lipids in the leaves of Tilia x euchlora trees growing under salt stressArabinogalactan proteins and pectin distribution during female gametogenesis in Quercus suber LNanospherical arabinogalactan proteins are a key component of the high-strength adhesive secreted by English ivyBiochemical and physiological characterization of fut4 and fut6 mutants defective in arabinogalactan-protein fucosylation in Arabidopsis.Arabinogalactan-proteins: key regulators at the cell surface?Role of the extensin superfamily in primary cell wall architecture.Glyco-engineering for biopharmaceutical production in moss bioreactors.An update on post-translational modifications of hydroxyproline-rich glycoproteins: toward a model highlighting their contribution to plant cell wall architectureAssembly of an interactive correlation network for the Arabidopsis genome using a novel heuristic clustering algorithm.Cell Wall Metabolism in Response to Abiotic Stress.Overexpression of AtMYB44 enhances stomatal closure to confer abiotic stress tolerance in transgenic Arabidopsis.Spatio-temporal diversification of the cell wall matrix materials in the developing stomatal complexes of Zea mays.Two Hydroxyproline Galactosyltransferases, GALT5 and GALT2, Function in Arabinogalactan-Protein Glycosylation, Growth and Development in Arabidopsis.Arabinogalactan Proteins Are Involved in Salt-Adaptation and Vesicle Trafficking in Tobacco by-2 Cell Cultures.A gene responsible for prolyl-hydroxylation of moss-produced recombinant human erythropoietin.Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation.Identification and characterization of in vitro galactosyltransferase activities involved in arabinogalactan-protein glycosylation in tobacco and Arabidopsis.Investigation of a His-rich arabinogalactan-protein for micronutrient biofortification of cereal grain.A chimeric arabinogalactan protein promotes somatic embryogenesis in cotton cell culture.Chemical and in situ characterization of macromolecular components of the cell walls from the green seaweed Codium fragile.Non-cellulosic polysaccharide distribution during G-layer formation in poplar tension wood fibers: abundance of rhamnogalacturonan I and arabinogalactan proteins but no evidence of xyloglucan.The Arabidopsis MUM2 gene encodes a beta-galactosidase required for the production of seed coat mucilage with correct hydration properties.Up against the wall: arabinogalactan-protein dynamics at cell surfaces.Pollen tube growth and guidance: Occam's razor sharpened on a molecular arabinogalactan glycoprotein Rosetta Stone.
P2860
Q26800108-69F4BA14-83B4-45F4-8CB3-73FEF6BC08D8Q26824849-F14C7A4A-36C0-422C-B589-A9CDC0D3580CQ28552088-A59D7B62-677A-4C08-BBD5-47823A20804CQ30178311-EAFA353B-ED26-46A8-A1CA-FBF62264637EQ31034080-5FAD3001-C40E-416C-9D6B-A7EA53BA9A27Q31169016-2C796F6A-52A4-404C-BA6B-3F740BBEFBD5Q33349763-E2A509A5-BE42-4DA0-A31E-9A1AE9DBC43FQ34042584-CBA44E3D-8B9B-4B54-8DF8-A51144C10318Q34331460-00DDB931-6F68-4227-8149-7792FFC3F6B1Q34331479-8B21CAE8-83F2-437B-A3AE-E84EA705F6CFQ34331485-74869272-08AB-4B74-9FC6-2E2BCE801A23Q34551418-69A26CD9-8450-476A-A2F8-1E9411B76421Q34597296-14FA53A2-BA59-4CBB-A582-4D9BED0E1CBFQ34714625-26E67FCC-3574-4873-87EA-E685052F4747Q34854884-759F2774-EBA0-4334-AB54-4D842D262A13Q36089159-6DDF9DA1-F88F-4ED5-B51B-F9F48CC00411Q36289758-F7BCCF45-2A8F-44D1-BF42-F34DD03B7CD6Q36899273-513F2E45-DB87-42A7-8FB4-192D8B3BE2ABQ37183652-393AB242-3495-4F87-9896-9DC9FAB38C11Q37411731-67AA651C-8BD4-4EAD-9C83-0D3252BC2922Q37730280-AD351706-8546-4936-BBF7-BE55D8D0ADDBQ37854291-E0A324F5-1035-4196-8201-C27DCC6A7136Q38234961-951128C1-8651-4653-822B-1C9BD933F615Q38245230-A5BFA0B3-B470-404D-AF45-1B2029DD0477Q38508445-E7D835DF-E89E-4EBB-AA49-F2B05992F040Q38822861-04DCBA85-D620-44AC-A6CF-FF48143C320CQ39113168-97471022-2E69-43B7-A012-BDD44542C0E6Q39557356-5F33D0EE-2216-416B-9927-467F42FC63FEQ40665622-8828CFF8-EF34-4940-B187-6A334AEA03F0Q41093047-12BCC6FE-233C-436F-B23D-0C2AB1718376Q42044055-5A7814A5-A579-47A7-906B-D9653B4DCAD1Q42515276-1DB87BAE-48C2-448B-A6E3-AE6B96ABC9CEQ42952148-5DB5DC3A-4AA0-4265-80E2-F06A1289C8BCQ44006237-18B96712-AECB-457E-AB46-CDF40C8BF26DQ45251078-82D456AA-E959-4D00-9B2A-E33A7C5EC87EQ46334023-A5655D74-29D3-4ACA-8E1E-30D4AB277CDDQ46337299-EFC4AFDD-BD61-4186-A5FA-7AFE6705BC3BQ46828454-C07417CB-4771-406F-914C-29F18E3D0B36Q46893756-E55ACB57-5E1D-44BB-A5C5-D53F698FD31AQ47679404-06F3B0FB-C380-4E80-81EF-37BA39BEFD78
P2860
Salt stress upregulates periplasmic arabinogalactan proteins: using salt stress to analyse AGP function.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Salt stress upregulates peripl ...... tress to analyse AGP function.
@en
Salt stress upregulates peripl ...... tress to analyse AGP function.
@nl
type
label
Salt stress upregulates peripl ...... tress to analyse AGP function.
@en
Salt stress upregulates peripl ...... tress to analyse AGP function.
@nl
prefLabel
Salt stress upregulates peripl ...... tress to analyse AGP function.
@en
Salt stress upregulates peripl ...... tress to analyse AGP function.
@nl
P2093
P2860
P1433
P1476
Salt stress upregulates peripl ...... tress to analyse AGP function.
@en
P2093
Allan M Showalter
Derek T A Lamport
Marcia J Kieliszewski
P2860
P304
P356
10.1111/J.1469-8137.2005.01591.X
P407
P577
2006-01-01T00:00:00Z