AUX1 regulates root gravitropism in Arabidopsis by facilitating auxin uptake within root apical tissues
about
Flavonoids act as negative regulators of auxin transport in vivo in arabidopsisA no hydrotropic response root mutant that responds positively to gravitropism in ArabidopsisRegulation of polar auxin transport by protein and lipid kinasesA current perspective on the role of AGCVIII kinases in PIN-mediated apical hook developmentForm matters: morphological aspects of lateral root developmentAuxin influx carriers control vascular patterning and xylem differentiation in Arabidopsis thalianaAuxin activity: Past, present, and futureGenetic and chemical reductions in protein phosphatase activity alter auxin transport, gravity response, and lateral root growthChromosaponin I specifically interacts with AUX1 protein in regulating the gravitropic response of Arabidopsis rootsAuxin transport promotes Arabidopsis lateral root initiationLocalization of the auxin permease AUX1 suggests two functionally distinct hormone transport pathways operate in the Arabidopsis root apexThe Arabidopsis thaliana ABC transporter AtMRP5 controls root development and stomata movementMolecular and Functional Characterization of GR2-R1 Event Based Backcross Derived Lines of Golden Rice in the Genetic Background of a Mega Rice Variety SwarnaGenetic analysis of indole-3-butyric acid responses in Arabidopsis thaliana reveals four mutant classesAuxin Transporters--Why So Many?Glycerol affects root development through regulation of multiple pathways in ArabidopsisIsolation, characterization, and pericycle-specific transcriptome analyses of the novel maize lateral and seminal root initiation mutant rum1.The IBR5 phosphatase promotes Arabidopsis auxin responses through a novel mechanism distinct from TIR1-mediated repressor degradationInsight into the early steps of root hair formation revealed by the procuste1 cellulose synthase mutant of Arabidopsis thaliana.Positional effect of cell inactivation on root gravitropism using heavy-ion microbeams.AUX1 promotes lateral root formation by facilitating indole-3-acetic acid distribution between sink and source tissues in the Arabidopsis seedling.The procambium specification gene Oshox1 promotes polar auxin transport capacity and reduces its sensitivity toward inhibition.Cell polarity and PIN protein positioning in Arabidopsis require STEROL METHYLTRANSFERASE1 function.ALTERED RESPONSE TO GRAVITY is a peripheral membrane protein that modulates gravity-induced cytoplasmic alkalinization and lateral auxin transport in plant statocytes.Transport of the two natural auxins, indole-3-butyric acid and indole-3-acetic acid, in Arabidopsis.CORKSCREW1 defines a novel mechanism of domain specification in the maize shoot.Ethylene regulates root growth through effects on auxin biosynthesis and transport-dependent auxin distribution.The AUX1 LAX family of auxin influx carriers is required for the establishment of embryonic root cell organization in Arabidopsis thaliana.Tomato root penetration in soil requires a coaction between ethylene and auxin signaling.Organogenesis from stem cells in planta: multiple feedback loops integrating molecular and mechanical signals.The non-DNA-binding bHLH transcription factor PRE3/bHLH135/ATBS1/TMO7 is involved in the regulation of light signaling pathway in Arabidopsis.Copper regulates primary root elongation through PIN1-mediated auxin redistribution.Perturbation of auxin homeostasis by overexpression of wild-type IAA15 results in impaired stem cell differentiation and gravitropism in roots.A major facilitator superfamily transporter plays a dual role in polar auxin transport and drought stress tolerance in Arabidopsis.Ammonium inhibits primary root growth by reducing the length of meristem and elongation zone and decreasing elemental expansion rate in the root apex in Arabidopsis thalianaROOT ULTRAVIOLET B-SENSITIVE1/weak auxin response3 is essential for polar auxin transport in Arabidopsis.Retrotransposon BARE displays strong tissue-specific differences in expression.Auxin transport sites are visualized in planta using fluorescent auxin analogs.Phosphorus and magnesium interactively modulate the elongation and directional growth of primary roots in Arabidopsis thaliana (L.) Heynh.An auxin transport-based model of root branching in Arabidopsis thaliana
P2860
Q24524145-233B752B-3AC3-4C60-938C-446588F06ECFQ24676044-5824333C-AD2E-4059-BBE7-C42CADC47E3EQ26744767-514C29DF-2595-4C17-AC98-A86BCE93381FQ26779165-BA0840B8-8A98-4121-8815-F2196DADCF35Q26830217-62E9F979-2631-409E-8E7F-51B69819E092Q27311202-D6244B80-ADD1-4620-A405-450020E15C47Q28080474-62EC63C5-9F05-4932-A37D-B62AF7218D69Q28343771-A23F777E-AC41-4475-ADB0-3F5BC411980EQ28346710-34F6FD9C-13B9-434A-9538-78E570AFE946Q28361772-ADB8F9E6-9AFF-40BE-A92C-817474479FB0Q28362209-D1362711-7DF9-4849-BAF0-CE3D3EE35F70Q28362216-D515BBA7-41FD-4500-B57F-A257E2F4F577Q28468375-88D2AACE-4020-45A3-A461-2063118C1013Q28769067-1205B671-99E9-4B1B-A615-418E80430E28Q29392280-AAB40352-8040-4D88-9D52-404E44880C11Q31148874-737847AA-1710-4FA6-A0EE-A632661A6BF3Q33224911-92D22D25-D827-4766-BFE4-7A866834A3BCQ33329266-10B01B4A-EB36-4B0B-B55B-FAB6E9F7F2E1Q33335359-3AA638DF-5B90-481F-9986-205DF9713D32Q33336986-1B5BC1C1-DDC3-4CCD-BF41-B3637D322C25Q33337026-DB8F9CE4-E04D-4278-A0AD-7C11890FD322Q33337878-6CCCCBB6-3152-4C3E-947F-7D0D4F834CAAQ33338156-DC9A8EAA-37C5-47D2-9225-799A319EB427Q33339252-EA840850-5269-4678-83EA-C1D43C7922D2Q33339300-74C463C5-FA2F-428E-9868-667F4C141DF8Q33341299-7D96B34F-A01D-4BBF-B4BE-5523AF23EB47Q33344273-7B6F732B-E856-4652-84AA-9FFC1D0A56F1Q33348272-4E073463-021B-434A-B83D-6C8626606B90Q33351240-680ED1D5-8CE1-4EE3-907E-976C952B1259Q33351493-BD9E433D-CAB0-44A4-8FB8-C9B0BA8DD139Q33353050-087384D3-655A-4E21-8A13-4BE0AFB7A927Q33355268-89F550EA-A247-4F90-8E8F-1B0A78743762Q33355441-68145741-FB26-4196-907D-790ADDAB2BC6Q33355512-203AD49B-5F0D-4474-9D86-33F695CD568EQ33355658-10CAEC36-F137-4238-99BE-E3384697D463Q33355669-427358E9-316E-456D-9CF6-FEB4B236B9BDQ33356524-47CD6006-4067-42F2-8A44-3CD47BE4B01EQ33358798-95BFF1A2-28D6-4AF0-8403-194AAC376BBDQ33360588-2916E143-C20F-4E86-9AC7-8B5B07691ACBQ33383203-88F38F74-D2AF-4297-8F7B-BDC038A84D5F
P2860
AUX1 regulates root gravitropism in Arabidopsis by facilitating auxin uptake within root apical tissues
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
AUX1 regulates root gravitropi ...... ake within root apical tissues
@en
AUX1 regulates root gravitropi ...... ake within root apical tissues
@nl
type
label
AUX1 regulates root gravitropi ...... ake within root apical tissues
@en
AUX1 regulates root gravitropi ...... ake within root apical tissues
@nl
prefLabel
AUX1 regulates root gravitropi ...... ake within root apical tissues
@en
AUX1 regulates root gravitropi ...... ake within root apical tissues
@nl
P2093
P2860
P356
P1433
P1476
AUX1 regulates root gravitropi ...... ake within root apical tissues
@en
P2093
Bennett MJ
Delbarre A
Marchant A
Perrot-Rechenmann C
P2860
P304
P356
10.1093/EMBOJ/18.8.2066
P407
P50
P577
1999-04-01T00:00:00Z