Glycosylinositol phosphorylceramides from Rosa cell cultures are boron-bridged in the plasma membrane and form complexes with rhamnogalacturonan II.
about
Boron deficiency in woody plants: various responses and tolerance mechanismsCell wall remodeling under abiotic stress.miRNAome analysis associated with anatomic and transcriptomic investigations reveal the polar exhibition of corky split vein in boron deficient Citrus sinensis.Addition of Phenylboronic Acid to Malus domestica Pollen Tubes Alters Calcium Dynamics, Disrupts Actin Filaments and Affects Cell Wall Architecture.Boron Toxicity Causes Multiple Effects on Malus domestica Pollen Tube GrowthAnatomical and Physiological Responses of Citrus Trees to Varying Boron Availability Are Dependent on RootstockSynthesis of borate cross-linked rhamnogalacturonan IICell wall integrity signalling in plants : "to grow or not to grow that's the question".GIPC: Glycosyl Inositol Phospho Ceramides, the major sphingolipids on earth.Evolutionary Divergence of Plant Borate Exporters and Critical Amino Acid Residues for the Polar Localization and Boron-Dependent Vacuolar Sorting of AtBOR1.Boron bridging of rhamnogalacturonan-II is promoted in vitro by cationic chaperones, including polyhistidine and wall glycoproteins.Insights into the Mechanisms Underlying Boron Homeostasis in Plants.The boron transporter BnaC4.BOR1;1c is critical for inflorescence development and fertility under boron limitation in Brassica napus.Revisiting Plant Plasma Membrane Lipids in Tobacco: A Focus on Sphingolipids.Low-Boron Tolerance Strategies Involving Pectin-Mediated Cell Wall Mechanical Properties in Brassica napus.Active proton efflux, nutrient retention and boron-bridging of pectin are related to greater tolerance of proton toxicity in the roots of two Erica species.Inhibition of fucosylation of cell wall components by 2-fluoro 2-deoxy-L-fucose induces defects in root cell elongation.
P2860
Q28085652-92B4DFF0-AF8C-4CDC-8649-25F116F3D4F7Q34850440-A7DBACAA-0148-4349-B59D-F37A41888AF0Q35574266-77EA6059-7A88-4854-B4DB-6112C992C0FAQ35926375-6EED9771-1197-4C8B-A698-FA763BAD15DBQ36621062-8D74207F-4CB8-42CD-BAA3-190923F9D246Q36650020-1580A088-7BFB-4DCA-88F6-25A02F8DFF56Q38466787-A037CCEE-BF8E-4235-8B4D-BCDECA47A1E1Q38761528-53BF3A99-AF32-45CF-B824-32044E1B6215Q38807393-E9F81305-AC58-4AA1-B3C0-0C6445CA287DQ41529342-392F6090-8EF5-4DC4-8919-850C0566F68CQ42380926-B955E41E-3F21-4C69-817E-62865F21B40AQ46248272-154B0FB2-AA3F-4990-978D-F0154F3770CDQ48091388-954362AE-0391-4B4A-8C1B-1CFEF1958A41Q48111559-927EB855-D6BD-4A1F-89F2-D510E0A4B8D7Q50089442-A23FB923-2A01-4FCB-93B3-845B06EE03BFQ51148405-B5D95B0E-7DB8-4CCE-BFF3-10F5B4B8B362Q52902888-EA22F2E3-15B8-4CB7-B43A-903E8DCE3A06
P2860
Glycosylinositol phosphorylceramides from Rosa cell cultures are boron-bridged in the plasma membrane and form complexes with rhamnogalacturonan II.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh-hant
name
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@en
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@nl
type
label
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@en
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@nl
prefLabel
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@en
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@nl
P2860
P356
P1433
P1476
Glycosylinositol phosphorylcer ...... es with rhamnogalacturonan II.
@en
P2093
Stephen C Fry
P2860
P304
P356
10.1111/TPJ.12547
P50
P577
2014-06-17T00:00:00Z