Timing mechanism dependent on cell division is invoked by Polycomb eviction in plant stem cells.
about
Maintaining Epigenetic Inheritance During DNA Replication in PlantsDynamics of H3K27me3 methylation and demethylation in plant developmentPlant synthetic biology for molecular engineering of signalling and developmentPlant science. Delayed gratification--waiting to terminate stem cell identity.The ASH1-RELATED3 SET-domain protein controls cell division competence of the meristem and the quiescent center of the Arabidopsis primary root.DNA topoisomerase I affects polycomb group protein-mediated epigenetic regulation and plant development by altering nucleosome distribution in Arabidopsis.AUXIN RESPONSE FACTOR 3 integrates the functions of AGAMOUS and APETALA2 in floral meristem determinacy.Genome-wide study of KNOX regulatory network reveals brassinosteroid catabolic genes important for shoot meristem function in rice.Arabidopsis homolog of trithorax1 (ATX1) is required for cell production, patterning, and morphogenesis in root development.ULTRAPETALA1 and LEAFY pathways function independently in specifying identity and determinacy at the Arabidopsis floral meristemRegulation of floral stem cell termination in ArabidopsisEpigenetic Mechanisms Are Critical for the Regulation of WUSCHEL Expression in Floral Meristems.APETALA1 establishes determinate floral meristem through regulating cytokinins homeostasis in Arabidopsis.FAR-RED ELONGATED HYPOCOTYL3 activates SEPALLATA2 but inhibits CLAVATA3 to regulate meristem determinacy and maintenance in Arabidopsis.ZRF1 Chromatin Regulators Have Polycomb Silencing and Independent Roles in Development.The far-upstream regulatory region of RFL is required for its precise spatial-temporal expression for floral development in rice.Arabidopsis PRC1 core component AtRING1 regulates stem cell-determining carpel development mainly through repression of class I KNOX genes.Interactions between FLORAL ORGAN NUMBER4 and floral homeotic genes in regulating rice flower development.Epigenetic memory and cell fate reprogramming in plants.Genetic Enhancer Analysis Reveals that FLORAL ORGAN NUMBER2 and OsMADS3 Co-operatively Regulate Maintenance and Determinacy of the Flower Meristem in Rice.Different reprogramming propensities in plants and mammals: Are small variations in the core network wirings responsible?Cytokinin Signaling Activates WUSCHEL Expression during Axillary Meristem Initiation.Developmental transitions: integrating environmental cues with hormonal signaling in the chromatin landscape in plantsRegulation of gene expression by manipulating transcriptional repressor activity using a novel CoSRI technology.The HIRA complex that deposits the histone H3.3 is conserved in Arabidopsis and facilitates transcriptional dynamics.Polycomb-mediated gene silencing in Arabidopsis thaliana.The Arabidopsis SWI2/SNF2 chromatin Remodeler BRAHMA regulates polycomb function during vegetative development and directly activates the flowering repressor gene SVP.K-homology nuclear ribonucleoproteins regulate floral organ identity and determinacy in arabidopsis.Arabidopsis Flower and Embryo Developmental Genes are Repressed in Seedlings by Different Combinations of Polycomb Group Proteins in Association with Distinct Sets of Cis-regulatory Elements.Gene activation and cell fate control in plants: a chromatin perspective.Keeping the gate closed: functions of the polycomb repressive complex PRC2 in development.Arabidopsis flower development--of protein complexes, targets, and transport.The histone modification H3K27me3 is retained after gene duplication and correlates with conserved noncoding sequences in Arabidopsis.50 years of Arabidopsis research: highlights and future directions.Arabidopsis transcriptional repressor VAL1 triggers Polycomb silencing at FLC during vernalization.Division time-based amplifiers for stochastic gene expression.Gene network analysis of Arabidopsis thaliana flower development through dynamic gene perturbations.Dynamics of genomic H3K27me3 domains and role of EZH2 during pancreatic endocrine specification.APETALA2 antagonizes the transcriptional activity of AGAMOUS in regulating floral stem cells in Arabidopsis thaliana.Fine-tuning of auxin homeostasis governs the transition from floral stem cell maintenance to gynoecium formation.
P2860
Q26766403-364B2CEC-5B8E-47D6-B4D3-C6FB1D2B38AEQ26796575-EBA499DE-BF9A-4194-892A-63C4E46EE977Q28066119-D75D2873-FD50-4B43-9AFF-1F91BEC2F407Q33357679-868AEF2D-689A-477C-99DA-7E293341700CQ33358765-E2AEC67F-A38B-474F-826E-B082958DCB4DQ33358852-77A79FDC-9F67-4346-9F85-7B0116C09CF9Q33359038-ADDF20E8-D3A5-4A12-9382-66A785E25910Q33359052-BB1A3528-8D9A-49B5-A209-E463EF3A80B0Q33359074-6A69E5BB-3B4C-40C3-9CC5-86878607912EQ33359224-F2D25AB4-F006-4D82-9365-986AA47D6539Q33360091-4D23B1D3-9E5A-4E12-A7BF-45C2EE578015Q33360412-A342AB5A-B93B-4EA2-9C6B-DE759BDC6796Q33361489-F97C7361-8375-4404-8712-B0B5E84EA56DQ33363608-2F5ADA21-FC5A-4FE9-87D9-B360880E3164Q33363865-D678DE40-2AB3-47A9-91D5-698C1009C551Q33364246-6C7F74C6-FFDB-4CE3-B97F-D426D093CD46Q33364464-39FA8FFB-06BF-4AD4-8D10-1F6FEA5A7120Q33364790-42E563FF-A5BF-4589-A1D3-0D81259344A1Q33365035-7B0DA6F8-C78A-413A-A1CE-5FD54C7043ADQ33365121-E8E24123-00FD-40F0-BCAC-B8C7631606A7Q33365160-2E986A77-F683-4FDA-9E55-3BBCD32EB038Q33365526-7CB22FF8-2710-45F4-8D89-A78C11FBC71BQ33660153-ACF11C22-6292-4C6F-B0F1-E0FDE5A89073Q33784157-33CE02A4-391F-4FF2-8C4D-0EE02D722662Q34178757-B4592DF2-5E91-4ED4-83E2-801F8EC358A4Q34768069-BFFC2E4D-5273-4E69-86E2-440D07A2F612Q35006903-BC692C88-E0E3-4F51-A827-641A2F23604CQ35556509-F8F2FF1A-F6C2-4334-993E-E4BC551AF4F4Q35892471-03858AE1-7CD8-4178-BFD9-B660B7CAE6D1Q38203164-A471FEE9-B4D2-4E41-ADE3-BA64515AC1F1Q38374393-297FD2FC-A498-4CF2-8BE8-ABACF67A781FQ38407468-F748F776-10F7-4C0D-95C7-C7495E148741Q38578385-199F16A7-884B-4B96-A5D2-282A121E7BA3Q38606784-D98F8172-C493-46A1-9ED9-B823A2CA15CEQ39546970-03502DAE-D731-46FA-8EF6-63764C981B50Q40733141-01C050D7-BFEA-4F31-B930-12A557ADD8F8Q40923129-D6980622-7AA2-4E54-8924-819975C669B5Q42108946-60E70387-803A-4DDD-84E6-46AA2A869B3CQ42153707-D15A87E4-C007-426F-A060-755E808B9DC4Q42639710-834A4717-C25F-49AE-8DD2-FEE1A1D5FE67
P2860
Timing mechanism dependent on cell division is invoked by Polycomb eviction in plant stem cells.
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年学术文章
@wuu
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
name
Timing mechanism dependent on ...... eviction in plant stem cells.
@ast
Timing mechanism dependent on ...... eviction in plant stem cells.
@en
type
label
Timing mechanism dependent on ...... eviction in plant stem cells.
@ast
Timing mechanism dependent on ...... eviction in plant stem cells.
@en
prefLabel
Timing mechanism dependent on ...... eviction in plant stem cells.
@ast
Timing mechanism dependent on ...... eviction in plant stem cells.
@en
P2093
P2860
P356
P1433
P1476
Timing mechanism dependent on ...... b eviction in plant stem cells
@en
P2093
Jiangbo Huang
Liang-Sheng Looi
Wan-Yi Wee
P2860
P304
P356
10.1126/SCIENCE.1248559
P407
P577
2014-01-01T00:00:00Z