WOX11 and 12 are involved in the first-step cell fate transition during de novo root organogenesis in Arabidopsis.
about
De novo assembly of plant body plan: a step ahead of DeadpoolRoot Regeneration Triggers an Embryo-like Sequence Guided by Hormonal InteractionsA mechanistic framework for noncell autonomous stem cell induction in ArabidopsisTranslatome analyses capture of opposing tissue-specific brassinosteroid signals orchestrating root meristem differentiation.Auxin-Independent NAC Pathway Acts in Response to Explant-Specific Wounding and Promotes Root Tip Emergence during de Novo Root Organogenesis in Arabidopsis.Two-Step Regulation of a Meristematic Cell Population Acting in Shoot Branching in Arabidopsis.The ISWI remodeler in plants: protein complexes, biochemical functions, and developmental roles.Epigenetic memory and cell fate reprogramming in plants.Rice Homeodomain Protein WOX11 Recruits a Histone Acetyltransferase Complex to Establish Programs of Cell Proliferation of Crown Root Meristem.A simple method suitable to study de novo root organogenesis.The TOR Pathway Is Involved in Adventitious Root Formation in Arabidopsis and Potato.Molecular Transducers from Roots Are Triggered in Arabidopsis Leaves by Root-Knot Nematodes for Successful Feeding Site Formation: A Conserved Post-Embryogenic De novo Organogenesis Program?High miR156 Expression Is Required for Auxin-Induced Adventitious Root Formation via MxSPL26 Independent of PINs and ARFs in Malus xiaojinensis.Genome-wide analysis of WOX genes in upland cotton and their expression pattern under different stresses.The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious rootsChrysanthemum transcription factor CmLBD1 direct lateral root formation in Arabidopsis thalianaPromoting Roles of Melatonin in Adventitious Root Development of Solanum lycopersicum L. by Regulating Auxin and Nitric Oxide SignalingYUCCA-mediated auxin biogenesis is required for cell fate transition occurring during de novo root organogenesis in Arabidopsis.Direct reprogramming of adult somatic cells toward adventitious root formation in forest tree species: the effect of the juvenile-adult transition.WIND1 Promotes Shoot Regeneration through Transcriptional Activation of ENHANCER OF SHOOT REGENERATION1 in Arabidopsis.Origin and development of the root cap in rice.Transcription Factors WOX11/12 Directly Activate WOX5/7 to Promote Root Primordia Initiation and Organogenesis.Externally imposed electric field enhances plant root tip regeneration.Identification and Functional Divergence Analysis of WOX Gene Family in Paper MulberryAuxin Control of Root Organogenesis from Callus in Tissue Culture.Wound signaling: The missing link in plant regenerationDivergent regeneration-competent cells adopt a common mechanism for callus initiation in angiosperms.Non-canonical WOX11-mediated root branching contributes to plasticity in Arabidopsis root system architecture.Endogenous auxin biosynthesis and de novo root organogenesis.Events Associated with Early Age-Related Decline in Adventitious Rooting Competence of Eucalyptus globulus Labill.Genome-wide Identification of Arabidopsis LBD29 Target Genes Reveals the Molecular Events behind Auxin-Induced Cell Reprograming during Callus Formation.Thioredoxin-Mediated ROS Homeostasis Explains Natural Variation in Plant Regeneration.DNA METHYLTRANSFERASE1-mediated shoot regeneration is regulated by cytokinin-induced cell cycle in Arabidopsis.A Conceptual Framework for Cell Identity Transitions in Plants.Transcriptional regulatory network of WOX11 is involved in the control of crown root development, cytokinin signals, and redox in rice.Type-B ARRs Control Carpel Regeneration through Mediating AGAMOUS Expression in Arabidopsis.Regulation of Hormonal Control, Cell Reprogramming and Patterning during De Novo Root Organogenesis.A novel rejuvenation approach to induce endohormones and improve rhizogenesis in mature Juglans tree.The WUSCHEL-related homeobox 5a (PtoWOX5a) is involved in adventitious root development in poplar.A Gene Regulatory Network for Cellular Reprogramming in Plant Regeneration.
P2860
Q28080179-2A07B26A-BE23-4735-9227-F18DAB845BF7Q30773560-63C8F936-17F3-4A31-931E-9FC8D264497DQ33359142-A3835357-02F0-4F05-BD40-42A63F08D488Q33359825-A2794047-2402-455D-9277-6E0D40FA1257Q33362472-1F28DF82-EE76-4A27-91A8-B9CF474ECA15Q33363489-89DDDB87-3BA3-4662-B4A8-01C9DB546D05Q33364821-0EA919F5-0645-41FC-9678-3B2757795C46Q33365035-143460A2-B547-4C66-A6E3-831E7BAE0AACQ33365385-DD2C4DF8-8012-4DA9-9871-7F3943E7C0AFQ33646857-0D074505-4550-4A91-A992-0039ADE0C305Q33665411-7F136875-131F-4EC8-A3BC-0B70652B1BAEQ33729616-7EF797AC-E703-4A3A-9E16-95FA99798BCAQ33809833-5B27351A-ABE5-4CA2-84DA-A160FDD972A8Q33882599-7F07BF9A-D215-47C8-93A4-FD7742A1C399Q34998067-53336C87-1138-438E-AEF5-52981DFDDEA0Q36512283-FB5CF9D4-C825-4059-8205-CAC745B4ECC0Q36933262-315C376B-7BE7-439A-BAD5-35177B633D21Q37635502-38870896-608E-4CF3-8FC5-0EEFB569E1E6Q38234951-B3B08C5D-8772-4A5D-81A5-54DC27E958C5Q39067650-76AF67C5-311A-41DF-8728-26569D746A00Q39171100-DF674A9B-555F-4363-B54D-95AACF5A1B8AQ39246238-427928E8-A711-4F4E-B36E-63FBFF836CB8Q39411464-84C63D5E-684D-4A1B-BBC9-A6FB634A1609Q39509426-25142953-402D-4089-9B6A-A1403799B8F8Q41333782-B203BC04-6037-46BE-8441-2AF27E3EC524Q41697855-E94BFB3D-4387-40F4-82CD-77377C26BEE6Q41810228-86D4C85C-FED0-47B2-B1EC-EBC6AB6F64ACQ41980503-D82CD8D8-1B59-4E05-855A-21E9B6433AE7Q42154395-3C47CAF8-FFC8-4A31-B2C4-D44F7F794271Q42700459-0640F845-4ECC-4BCF-90BA-490F3AD008B4Q46264817-8EA78A00-D0C6-43B1-A234-A8900764F7FFQ46333729-25A6CCC7-6706-41DC-B4F6-755BC87107CDQ47620091-ED80C782-87AA-4624-B267-CAEFD272FD60Q47840552-8EC7C5C9-2CCF-4203-B9D3-DF26EEBAA461Q47920844-53C2987D-6EE6-42C0-A49E-55D6E9900F13Q49548387-53790FDE-1F4F-450A-AAD5-57E1D27FF930Q49886831-6E47483B-86B8-4058-B803-C1A63F73BD2CQ49956569-63117D57-F984-4713-8C01-E1A6A7133412Q50074647-F2C9BD25-A90A-408D-9431-02AE61C13E30Q50422492-592CA7BD-A22F-4065-8AFA-AEAB3AAF8FA0
P2860
WOX11 and 12 are involved in the first-step cell fate transition during de novo root organogenesis in Arabidopsis.
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
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@en
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@nl
type
label
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@en
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@nl
prefLabel
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@en
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@nl
P2093
P2860
P356
P1433
P1476
WOX11 and 12 are involved in t ...... organogenesis in Arabidopsis.
@en
P2093
Jingchun Liu
Lihong Sheng
Yingqiang Xu
Zhongnan Yang
P2860
P304
P356
10.1105/TPC.114.122887
P577
2014-03-18T00:00:00Z