OsLIC, a Novel CCCH-Type Zinc Finger Protein with Transcription Activation, Mediates Rice Architecture via Brassinosteroids Signaling.
about
Brassinosteroid-mediated regulation of agronomic traits in riceTransgenic Expression of the piRNA-Resistant Masculinizer Gene Induces Female-Specific Lethality and Partial Female-to-Male Sex Reversal in the Silkworm, Bombyx moriGenetic analysis of vegetative branching in sorghum.08SG2/OsBAK1 regulates grain size and number, and functions differently in Indica and Japonica backgrounds in rice.Genome-wide in silico screen for CCCH-type zinc finger proteins of Trypanosoma brucei, Trypanosoma cruzi and Leishmania major.Genome-wide analysis of the CCCH zinc finger family identifies tissue specific and stress responsive candidates in chickpea (Cicer arietinum L.).Meta-analysis of grain yield QTL identified during agricultural drought in grasses showed consensusDynamics of brassinosteroid response modulated by negative regulator LIC in rice.Comprehensive analysis of CCCH zinc finger family in poplar (Populus trichocarpa).Overexpression of AtLOV1 in Switchgrass alters plant architecture, lignin content, and flowering time.Functions of the CCCH type zinc finger protein OsGZF1 in regulation of the seed storage protein GluB-1 from rice.Comprehensive analysis of CCCH-type zinc finger family genes facilitates functional gene discovery and reflects recent allopolyploidization event in tetraploid switchgrassPutative molecular mechanisms underlying tandem CCCH zinc finger protein mediated plant growth, stress, and gene expression responses.Can AtTZF1 act as a transcriptional activator or repressor in plants?Overexpression of AtTTP affects ARF17 expression and leads to male sterility in ArabidopsisGenome-wide association mapping reveals a rich genetic architecture of complex traits in Oryza sativaMolecular characterization of HbCZF1, a Hevea brasiliensis CCCH-type zinc finger protein that regulates hmg1.Temporal patterns of gene expression associated with tuberous root formation and development in sweetpotato (Ipomoea batatas).A Novel Tiller Angle Gene, TAC3, together with TAC1 and D2 Largely Determine the Natural Variation of Tiller Angle in Rice Cultivars.Loose Plant Architecture1 (LPA1) determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice.Boosting crop yields with plant steroids.Brassinosteroid signaling network: implications on yield and stress tolerance.AtC3H17, a Non-Tandem CCCH Zinc Finger Protein, Functions as a Nuclear Transcriptional Activator and Has Pleiotropic Effects on Vegetative Development, Flowering and Seed Development in Arabidopsis.Phytohormones signaling and crosstalk regulating leaf angle in rice.Rice Leaf Angle and Grain Size Are Affected by the OsBUL1 Transcriptional Activator Complex.Oryza sativa BRASSINOSTEROID UPREGULATED1 LIKE1 Induces the Expression of a Gene Encoding a Small Leucine-Rich-Repeat Protein to Positively Regulate Lamina Inclination and Grain Size in Rice.Genome-wide analysis and identification of stress-responsive genes of the CCCH zinc finger family in Solanum lycopersicum.Ectopic overexpression of an AUXIN/INDOLE-3-ACETIC ACID (Aux/IAA) gene OsIAA4 in rice induces morphological changes and reduces responsiveness to AuxinOsMAPK6, a mitogen-activated protein kinase, influences rice grain size and biomass production.Two C3H Type Zinc Finger Protein Genes, CpCZF1 and CpCZF2, from Chimonanthus praecox Affect Stamen Development in Arabidopsis.Brassinosteroids Regulate OFP1, a DLT Interacting Protein, to Modulate Plant Architecture and Grain Morphology in Rice.OsmiR396d-regulated OsGRFs function in floral organogenesis in rice through binding to their targets OsJMJ706 and OsCR4.Rice leaf inclination2, a VIN3-like protein, regulates leaf angle through modulating cell division of the collar.Increased leaf angle1, a Raf-like MAPKKK that interacts with a nuclear protein family, regulates mechanical tissue formation in the Lamina joint of rice.The cyclophilin CYP20-2 modulates the conformation of BRASSINAZOLE-RESISTANT1, which binds the promoter of FLOWERING LOCUS D to regulate flowering in Arabidopsis.Genome-wide analysis of the CCCH zinc finger gene family in Medicago truncatula.Comprehensive analysis of CCCH-type zinc finger gene family in citrus (Clementine mandarin) by genome-wide characterization.A CCCH-type zinc finger nucleic acid-binding protein quantitatively confers resistance against rice bacterial blight disease.Loose Plant Architecture1, an INDETERMINATE DOMAIN protein involved in shoot gravitropism, regulates plant architecture in rice.Differential manipulation of leaf angle throughout the canopy: current status and prospects.
P2860
Q26827762-B8753A1F-0CE8-4C55-B009-4836A1AE502AQ27308219-1097F6DC-C56F-4EAC-84DC-5E4BD6C10764Q33359008-9798604D-5510-476A-B21D-63BD2ABB6404Q33729095-FFCDF353-326C-4271-B7C0-FAA03C8AC685Q33864331-64E52428-A040-4453-B85E-BC8B4E28B23BQ33898439-F3964920-D495-4BEB-AFE5-FF8652DB3E0DQ33934574-B8B33506-7E4D-4090-8DB0-69BEAAFFB9C3Q34263118-F0CFBC73-A7B6-4248-BB9A-EB1E92DB3B10Q34307730-046DBD6E-6D35-4594-B704-52E043AC50F0Q34539963-664CDCC5-A3FC-47F9-A77D-5660B5FF0907Q35054877-A6FF0A34-E86F-4DC4-80F0-525E6AA82DCCQ35155458-4A2DD26E-FED3-4C6E-B53A-9EB14724C608Q35212469-F48C256B-46BC-42C9-911F-BDA9698D580BQ35212503-4E7E8780-6AA7-4D3D-82A7-853004C7510EQ35230739-7C8A9334-AEFA-4285-A9A4-1A4BEAC34A77Q35367001-329AA797-13FB-411A-96AE-7045932F41F6Q35634721-6439441F-6529-4E54-A0C6-E1295548AACAQ35691285-E171E552-C382-41C1-B2BA-FA45FC62D4E1Q36182809-5DD28214-A64E-42E4-BD29-987BAA027CD2Q36665506-A1D5E292-A71E-4D78-8BD7-356E96E7DDADQ37995963-EE63C687-F077-4C1E-AEA9-8D63615633A1Q38097349-275DF7A6-8FFC-4FA3-A339-E5E43F7AC083Q38417381-70FA33A4-61FF-443A-9389-BF50E5B884B2Q38953394-3F340AE4-4CEA-4A9F-83FE-F04B898DD386Q39100855-41C08DE6-DAB2-4122-A244-FE16F19A1278Q39100860-AD88EE6F-41CF-418E-9CC0-51A8088D2A74Q39185388-1AD3A527-553C-4E39-8DAF-87185F17A6FBQ39478811-1BDF123C-7173-4C5F-92E0-DC6BD258D832Q40542522-61F240BF-926D-421B-9AA0-B1955817D4BCQ41553036-58F8607E-2A38-40F4-A877-D32F716B9011Q42288258-2309E75F-CB76-4C08-9D3C-A6D1C1CCCC1CQ42646639-18F41977-1B6C-4821-8C51-76C9EF44312EQ42965183-F61386E0-2220-4EF3-9CC9-5248733D530AQ43499264-80AE4444-2785-41AA-8342-96E4B8AAB237Q45147737-4533E1AA-F429-4DB3-9835-D254B66C29B2Q45351087-565B7BD6-2440-4FE1-857E-71107B7EB0F4Q45418335-F43BD856-ACA3-4CDD-A4F1-6DD86EA19951Q46059495-C4A4178C-431B-4C3C-B546-0B235AC6C569Q46096885-5E368185-F87A-43C9-BFEC-BD3562886564Q46263819-F85BCB23-34AF-4FCC-AF02-86B2B8CC32AF
P2860
OsLIC, a Novel CCCH-Type Zinc Finger Protein with Transcription Activation, Mediates Rice Architecture via Brassinosteroids Signaling.
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
name
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@ast
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@en
type
label
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@ast
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@en
prefLabel
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@ast
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@en
P2093
P2860
P1433
P1476
OsLIC, a Novel CCCH-Type Zinc ...... ia Brassinosteroids Signaling.
@en
P2093
Kang Chong
Se-Hwan Joo
Seong-Ki Kim
Yunyuan Xu
Zhihong Xu
P2860
P356
10.1371/JOURNAL.PONE.0003521
P407
P577
2008-10-27T00:00:00Z