Over-expression of OsPIN2 leads to increased tiller numbers, angle and shorter plant height through suppression of OsLAZY1. - Wikidata - awgldk - TriplyDB

Over-expression of OsPIN2 leads to increased tiller numbers, angle and shorter plant height through suppression of OsLAZY1.

Over-expression of OsPIN2 leads to increased tiller numbers, angle and shorter plant height through suppression of OsLAZY1.

http://www.wikidata.org/entity/Q44146525

about

Fine mapping and candidate gene analysis of qTAC8, a major quantitative trait locus controlling tiller angle in rice (Oryza sativa L.).Specific expression of DR5 promoter in rice roots using a tCUP derived promoter-reporter system Strigolactones are required for nitric oxide to induce root elongation in response to nitrogen and phosphate deficiencies in rice.Histological characterization of the lateral root primordium development in rice Integrative RNA- and miRNA-Profile Analysis Reveals a Likely Role of BR and Auxin Signaling in Branch Angle Regulation of B. napus Genome-Wide Association Mapping Reveals the Genetic Control Underlying Branch Angle in Rapeseed (Brassica napus L.).The role of auxin transporters in monocots development.Alleviation of aluminium-induced cell rigidity by overexpression of OsPIN2 in rice roots.Strigolactones are involved in phosphate- and nitrate-deficiency-induced root development and auxin transport in rice.Two short sequences in OsNAR2.1 promoter are necessary for fully activating the nitrate induced gene expression in rice roots Development and Genetic Control of Plant Architecture and Biomass in the Panicoid Grass, Setaria.A Novel Tiller Angle Gene, TAC3, together with TAC1 and D2 Largely Determine the Natural Variation of Tiller Angle in Rice Cultivars.Overexpressing OsPIN2 enhances aluminium internalization by elevating vesicular trafficking in rice root apex.Genome-wide identification and expression analysis of ClLAX, ClPIN and ClABCB genes families in Citrullus lanatus under various abiotic stresses and grafting.Knockdown of the partner protein OsNAR2.1 for high-affinity nitrate transport represses lateral root formation in a nitrate-dependent manner Loose Plant Architecture1 (LPA1) determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice.Agronomic nitrogen-use efficiency of rice can be increased by driving OsNRT2.1 expression with the OsNAR2.1 promoter.Identification of BnaYUCCA6 as a candidate gene for branch angle in Brassica napus by QTL-seq.Recent progress on molecular breeding of rice in China.Fine-Mapping the Branching Habit Trait in Cultivated Peanut by Combining Bulked Segregant Analysis and High-Throughput Sequencing.Advances in Agrobacterium tumefaciens-mediated genetic transformation of graminaceous crops.Expression of an Arabidopsis molybdenum cofactor sulphurase gene in soybean enhances drought tolerance and increases yield under field conditions.The PIN1 family gene PvPIN1 is involved in auxin-dependent root emergence and tillering in switchgrass.The putative auxin efflux carrier OsPIN3t is involved in the drought stress response and drought tolerance.The rice narrow leaf2 and narrow leaf3 loci encode WUSCHEL-related homeobox 3A (OsWOX3A) and function in leaf, spikelet, tiller and lateral root development.Loose Plant Architecture1, an INDETERMINATE DOMAIN protein involved in shoot gravitropism, regulates plant architecture in rice.Recent advances in auxin research in rice and their implications for crop improvement.OsPIN5b modulates rice (Oryza sativa) plant architecture and yield by changing auxin homeostasis, transport and distribution.Natural variation and genetic analysis of the tiller angle gene MsTAC1 in Miscanthus sinensis.A sensitive synthetic reporter for visualizing cytokinin signaling output in rice.Novel and major QTL for branch angle detected by using DH population from an exotic introgression in rapeseed (Brassica napus L.).LARGE ROOT ANGLE1, encoding OsPIN2, is involved in root system architecture in rice.The YUCCA-Auxin-WOX11 Module Controls Crown Root Development in Rice.The MADS transcription factor CmANR1 positively modulates root system development by directly regulating in chrysanthemum OsPIN1b is Involved in Rice Seminal Root Elongation by Regulating Root Apical Meristem Activity in Response to Low Nitrogen and Phosphate

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P2860

Over-expression of OsPIN2 leads to increased tiller numbers, angle and shorter plant height through suppression of OsLAZY1.

http://www.wikidata.org/entity/Q44146525

description

2011 nî lūn-bûn

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2011年の論文

@ja

2011年学术文章

@wuu

2011年学术文章

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2011年学术文章

@zh-cn

2011年学术文章

@zh-hans

2011年学术文章

@zh-my

2011年学术文章

@zh-sg

2011年學術文章

@yue

2011年學術文章

@zh-hant

name

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@en

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@nl

type

label

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@en

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@nl

prefLabel

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@en

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@nl

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P356

J.1467-7652.2011.00637.X

P1433

Plant Biotechnology Journal

P1476

Over-expression of OsPIN2 lead ...... hrough suppression of OsLAZY1.

@en

P2093

Guohua Xu

http://www.w3.org/2001/XMLSchema#string

Wenjing Song

http://www.w3.org/2001/XMLSchema#string

Xiaorong Fan

http://www.w3.org/2001/XMLSchema#string

Yali Zhang

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Yingnan Chen

http://www.w3.org/2001/XMLSchema#string

P2860

Lateral relocation of auxin efflux regulator PIN3 mediates tropism in Arabidopsis

AtPIN4 mediates sink-driven auxin gradients and root patterning in Arabidopsis.

The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots.

Polar PIN localization directs auxin flow in plants.

Auxin transport and gravitational research: perspectives.

Control of bud activation by an auxin transport switch.

Gravitropism of Arabidopsis thaliana roots requires the polarization of PIN2 toward the root tip in meristematic cortical cells.

PIN phosphorylation is sufficient to mediate PIN polarity and direct auxin transport

Auxin and monocot development.

Regulation of OsSPL14 by OsmiR156 defines ideal plant architecture in rice.

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139-149

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scholarly article

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10.1111/J.1467-7652.2011.00637.X

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2

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10

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2011-07-20T00:00:00Z

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51509868

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21777365

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