Transcription factor control of asymmetric cell divisions that establish the stomatal lineage.
about
MAPK Cascades in Guard Cell Signal TransductionPutting the brakes on: abscisic acid as a central environmental regulator of stomatal developmentSignaling to stomatal initiation and cell divisionA Specialized Histone H1 Variant Is Required for Adaptive Responses to Complex Abiotic Stress and Related DNA Methylation in ArabidopsisStem development through vascular tissues: EPFL-ERECTA family signaling that bounces in and out of phloemThe molecular circuitry of brassinosteroid signalingGrasses use an alternatively wired bHLH transcription factor network to establish stomatal identityAn ancestral stomatal patterning module revealed in the non-vascular land plant Physcomitrella patensCO2 Sensing and CO2 Regulation of Stomatal Conductance: Advances and Open QuestionsDecreased photosynthesis in the erect panicle 3 (ep3) mutant of rice is associated with reduced stomatal conductance and attenuated guard cell developmentGas valves, forests and global change: a commentary on Jarvis (1976) 'The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field'Evolution of the bHLH genes involved in stomatal development: implications for the expansion of developmental complexity of stomata in land plantsLow relative humidity triggers RNA-directed de novo DNA methylation and suppression of genes controlling stomatal developmentMechanisms of stomatal development: an evolutionary viewStomatal development: a plant's perspective on cell polarity, cell fate transitions and intercellular communicationSequence and function of basic helix-loop-helix proteins required for stomatal development in Arabidopsis are deeply conserved in land plantsOut of the mouths of plants: the molecular basis of the evolution and diversity of stomatal developmentDifferentiating Arabidopsis shoots from leaves by combined YABBY activitiesMaking holes in leaves: promoting cell state transitions in stomatal developmentAdaptive mechanisms and genomic plasticity for drought tolerance identified in European black poplar (Populus nigra L.).Arabidopsis homeodomain-leucine zipper IV proteins promote stomatal development and ectopically induce stomata beyond the epidermisNovel and expanded roles for MAPK signaling in Arabidopsis stomatal cell fate revealed by cell type-specific manipulations.Peptide signaling in plant development.Generation of signaling specificity in Arabidopsis by spatially restricted buffering of ligand-receptor interactions.Generation of spatial patterns through cell polarity switchingMolecular profiling of stomatal meristemoids reveals new component of asymmetric cell division and commonalities among stem cell populations in Arabidopsis.Retinoblastoma related1 regulates asymmetric cell divisions in Arabidopsis.Usual and unusual development of the dicot leaf: involvement of transcription factors and hormones.EPIDERMAL PATTERNING FACTOR LIKE5 peptide represses stomatal development by inhibiting meristemoid maintenance in Arabidopsis thaliana.Diverse roles of ERECTA family genes in plant development.Myrosin idioblast cell fate and development are regulated by the Arabidopsis transcription factor FAMA, the auxin pathway, and vesicular trafficking.Myrosin cells are differentiated directly from ground meristem cells and are developmentally independent of the vasculature in Arabidopsis leaves.The Dehydratase ADT3 Affects ROS Homeostasis and Cotyledon Development.Hormone Distribution and Transcriptome Profiles in Bamboo Shoots Provide Insights on Bamboo Stem Emergence and Growth.Omics and modelling approaches for understanding regulation of asymmetric cell divisions in arabidopsis and other angiosperm plantsRequirement for A-type cyclin-dependent kinase and cyclins for the terminal division in the stomatal lineage of Arabidopsis.MAPK phosphatase AP2C3 induces ectopic proliferation of epidermal cells leading to stomata development in Arabidopsis.Overproduction of stomatal lineage cells in Arabidopsis mutants defective in active DNA demethylation.Polarity in plant asymmetric cell division: Division orientation and cell fate differentiation.Asymmetric cell division in plants: mechanisms of symmetry breaking and cell fate determination.
P2860
Q26767490-6566A77B-D623-4A14-A606-AF2CC0D59624Q26822617-1346E75C-162C-45E0-93E6-4CE58286F586Q27025583-FFCC9E4B-78DA-4D0C-B32C-D3E743924DB9Q27320728-205982A3-457D-4155-A2FA-A821FBD6D82EQ28072421-A002CF7A-C9A4-4652-AA8C-3FA4EE3A2EC8Q28085324-AE0C863B-187D-444E-AC54-979C55D9C12AQ28595854-10BBC0A1-CCB4-48DD-94F9-65FB8265700BQ28598042-EC5AB8C8-992F-4CCF-992F-3AC1B747E9E3Q28602838-14ECF96E-7E9F-4284-BEDF-4516CE039328Q28649466-EE29E2F9-0F1E-4250-B86F-83CB245D23B2Q28652373-D7A6B4F2-F9AE-4376-B512-918BC854A6CAQ28661685-AA3CB957-58BF-4CD2-9E6C-4541A2AE8280Q28687553-14CD9AFB-9E42-4310-8ACA-65B38BDEC4B3Q28727458-6672A8FF-9563-46B0-B16C-97D62928F6ABQ28727730-2F27CEE3-7BFE-4526-BDF8-6ED4F3127132Q28742419-4B7A5D00-BC6B-48C0-8094-75644D8647C2Q28748311-A6977CA5-153C-444A-874B-EA3BCE7CE7D7Q28749546-A604DBF6-0B82-464D-B24A-83540980C60DQ28757438-7E84689A-91F5-48BF-BB0F-458628DAB17CQ30382425-63D45ECB-0417-413A-94A6-6687502E39BEQ30539070-361F6636-9A02-496C-B381-E2BFA91BEE79Q33348138-264015A4-D24B-40CD-94F8-978E8D02FC45Q33351152-98638059-4E7A-4089-B3E1-291BB8A2BFBDQ33352022-97C04DB1-7D90-4D0F-B152-6D2001EF72A0Q33352100-372D2B93-8EE4-400C-B663-7625840735A7Q33352242-4CEF3D4D-F220-4231-AE4D-97CCC37274EBQ33354625-4698EBAC-37C1-42EC-994B-9CA9D15A2ABEQ33355574-A3F059FE-9C79-4CE6-A703-5C3AE10B746FQ33355961-C8F6F286-FCFF-4A3E-B4D3-DCDC30FA013AQ33356488-9EC82BEE-A56B-4A18-8224-DC2A6A941F65Q33359259-5D2B0FCB-2509-42A5-8FE4-74666F23D749Q33362748-A6612A31-3000-4D52-8EAE-46BE0ECE91BAQ33363734-BC14A32F-36AA-42E7-B480-2E295821BC34Q33364793-996F2A45-3984-4925-82D5-14278B976C19Q33649442-C6D3BF98-1925-4280-B661-CA8B80786998Q33677378-5AF822D9-21F2-46E9-BCB0-BE35A964F1C6Q33784473-093A7ACC-2F88-43E0-9914-4D80E74D7A52Q33898177-288F0367-9FA5-4F5A-BDB3-5761FDD402EDQ33924128-8F9E7070-1E38-48C7-9567-E9A7177FFFB1Q33924133-30417224-62E4-40C1-B773-2C06FB3E2932
P2860
Transcription factor control of asymmetric cell divisions that establish the stomatal lineage.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Transcription factor control o ...... stablish the stomatal lineage.
@en
Transcription factor control o ...... stablish the stomatal lineage.
@nl
type
label
Transcription factor control o ...... stablish the stomatal lineage.
@en
Transcription factor control o ...... stablish the stomatal lineage.
@nl
prefLabel
Transcription factor control o ...... stablish the stomatal lineage.
@en
Transcription factor control o ...... stablish the stomatal lineage.
@nl
P2860
P356
P1433
P1476
Transcription factor control o ...... establish the stomatal lineage
@en
P2093
Cora A MacAlister
Kyoko Ohashi-Ito
P2860
P2888
P304
P356
10.1038/NATURE05491
P407
P577
2006-12-20T00:00:00Z
P5875
P6179
1014064047