about
Apple miRNAs and tasiRNAs with novel regulatory networksNitrogen control of developmental phase transitions in Arabidopsis thalianaSustainable harvest: managing plasticity for resilient cropsGenetic regulation of flowering time in annual and perennial plantsReproductive competence: a recurrent logic module in eukaryotic developmentThe regulation of seasonal flowering in the RosaceaeCoevolution Pattern and Functional Conservation or Divergence of miR167s and their targets across Diverse Plant SpeciesSequenced genomes and rapidly emerging technologies pave the way for conifer evolutionary developmental biologyDigital gene expression analysis of male and female bud transition in Metasequoia reveals high activity of MADS-box transcription factors and hormone-mediated sugar pathwaysDeep sequencing on a genome-wide scale reveals diverse stage-specific microRNAs in cambium during dormancy-release induced by chilling in poplarDraft genome sequence of the mulberry tree Morus notabilisIAA-Ala Resistant3, an evolutionarily conserved target of miR167, mediates Arabidopsis root architecture changes during high osmotic stressTranscriptome variation along bud development in grapevine (Vitis vinifera L.).A role for the miR396/GRF network in specification of organ type during flower development, as supported by ectopic expression of Populus trichocarpa miR396c in transgenic tobacco.Senescence, ageing and death of the whole plant.Over-expression of microRNA171 affects phase transitions and floral meristem determinancy in barleyChange of shoot architecture during juvenile-to-adult phase transition in soybean.Identification of transcription factors potentially involved in the juvenile to adult phase transition in CitrusGibberellin is not a regulator of miR156 in rice juvenile-adult phase changeMolecular characterization and expression analysis of Triticum aestivum squamosa-promoter binding protein-box genes involved in ear development.microRNA156-targeted SPL/SBP box transcription factors regulate tomato ovary and fruit development.Morphogenesis of simple leaves: regulation of leaf size and shape.Meristem identity and phyllotaxis in inflorescence development.Transcriptomic analysis suggests a key role for SQUAMOSA PROMOTER BINDING PROTEIN LIKE, NAC and YUCCA genes in the heteroblastic development of the temperate rainforest tree Gevuina avellana (Proteaceae).Analysis of transcripts differentially expressed between fruited and deflowered 'Gala' adult trees: a contribution to biennial bearing understanding in apple.Developmental Functions of miR156-Regulated SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) Genes in Arabidopsis thaliana.A photoperiod-responsive protein compendium and conceptual proteome roadmap outline in maize grown in growth chambers with controlled conditions.Comprehensive Transcriptome Analyses Reveal Differential Gene Expression Profiles of Camellia sinensis Axillary Buds at Para-, Endo-, Ecodormancy, and Bud Flush Stages.High miR156 Expression Is Required for Auxin-Induced Adventitious Root Formation via MxSPL26 Independent of PINs and ARFs in Malus xiaojinensis.Vegetative phase change and shoot maturation in plants.Employing machine learning for reliable miRNA target identification in plantsIdentification and characterization of small non-coding RNAs from Chinese fir by high throughput sequencing.Identification and comparative profiling of miRNAs in an early flowering mutant of trifoliate orange and its wild type by genome-wide deep sequencingSmall RNAs of Sequoia sempervirens during rejuvenation and phase change.Involvement of microRNA-mediated gene expression regulation in the pathological development of stem canker disease in Populus trichocarpaAlternate bearing in citrus: changes in the expression of flowering control genes and in global gene expression in ON- versus OFF-crop treesIdentification of novel and conserved miRNAs involved in pollen development in Brassica campestris ssp. chinensis by high-throughput sequencing and degradome analysisProfiling microRNAs in Eucalyptus grandis reveals no mutual relationship between alterations in miR156 and miR172 expression and adventitious root induction during development.Successful crossings with early flowering transgenic poplar: interspecific crossings, but not transgenesis, promoted aberrant phenotypes in offspring.Genome-wide identification of vegetative phase transition-associated microRNAs and target predictions using degradome sequencing in Malus hupehensis
P2860
Q21184001-926F7DF3-8655-4521-808D-BE373C0AD965Q26865262-A46C8F71-0065-4553-89CA-820C5F58618AQ27015078-505F55F4-3015-4CED-9B94-8FB223716FEFQ27021592-92DC5B13-FFBB-40DD-9EB3-981B466C71BEQ27026139-F70290F3-9B62-4654-9485-417CC6DCFAE6Q27026357-9BC374D5-95C6-4146-8F92-DA1972FABAE4Q28606483-87BCB5E5-9D55-4757-AE15-3F8306288AA1Q28608169-CC1F1844-F0E0-4AAB-8A5A-1B7C392421C1Q28648003-6A7A1C76-5791-49D7-BE76-083C93250DB2Q28654890-C92C6BAB-CA8B-45AE-B40E-56E653E11AF6Q28676965-421B9FB9-1E00-4ACE-B7BA-683AC2925C39Q28714930-97AB416F-9DFC-42D5-9282-262FEE74DE44Q33354472-AB2D064E-6779-449B-87C9-D2E92FE42A6AQ33354755-8199E590-0503-4D2F-8FB5-7F92AE7D80AEQ33354768-FA9DDAE7-9079-477D-A215-AE23F5A61B08Q33354988-FE5CB598-FF08-4800-B9AC-00F0B70F7AF4Q33355875-2E57F0BB-4749-4FD7-919D-BEF6E173F29AQ33356569-91A84AF4-2FE5-4FF9-B306-6502C8F60C72Q33357208-31B8CF34-C52B-4434-8F6D-AE14B932B435Q33357450-06603EA9-A29D-4FAA-8904-E8412C8B324FQ33357966-DB159BB6-FCFA-4200-A630-EFDC1906504DQ33358564-F47AB1B3-5588-4AF0-BA41-336E82277F40Q33359343-278BF8E0-5F5B-4AD3-B94D-57579ACEE94DQ33362139-DD06282F-89FF-4A8D-8517-ECD0B317246CQ33362666-0E01E049-E286-4D26-96BF-D8AF36B19D94Q33363739-03CE5C6C-1485-4631-B666-D763C0905E50Q33554344-B23A06EF-2236-4ADD-ABB5-1FE3B1D2D4D3Q33571445-D9AAEBAB-291D-4C19-AF41-BF58EEF7CC86Q33809833-8A98851D-49B7-495B-ACAC-BD91C5C4ECB7Q33911245-4D743A0E-5783-4E6C-B120-B4A4CF3F07A3Q34113956-4F3D1507-F7BB-4013-A5DE-B5004214F0E1Q34380556-8AD27BD7-7019-4E26-AD2D-F82EE84DF4FDQ34405559-5A6F1059-CE33-488B-8207-4D8D355B5B10Q34422832-E73D0EEB-61B7-4D4C-8E23-28CDA327181EQ34427775-E012C900-7469-4B01-B9E0-C4B5C55364D1Q34447619-DC8F6B0D-11C1-46EF-B0DA-C83F2823B047Q35100174-E24DC7DA-6FAD-4498-B3D0-A1A9F15DD0AEQ35195098-1EF466ED-AFFC-4A79-BDED-43B2AA5F9BECQ35197090-845F2653-75E5-4772-ADE2-5ABBA8D1B291Q35526096-23B067BA-1846-4E28-B16C-B1885B1DF18C
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
miRNA control of vegetative phase change in trees
@ast
miRNA control of vegetative phase change in trees
@en
type
label
miRNA control of vegetative phase change in trees
@ast
miRNA control of vegetative phase change in trees
@en
prefLabel
miRNA control of vegetative phase change in trees
@ast
miRNA control of vegetative phase change in trees
@en
P2093
P2860
P50
P1433
P1476
miRNA control of vegetative phase change in trees
@en
P2093
Jia-Wei Wang
Ling-Jian Wang
Mee Yeon Park
Yeonjong Koo
P2860
P304
P356
10.1371/JOURNAL.PGEN.1002012
P577
2011-02-24T00:00:00Z