Epiallelic Variation of TILLER ANGLE CONTROL 5 (TAC5) Regulates Tiller Angle by Modulating Gravitropism in Rice [PDF]
RiceTiller angle is a major component of rice plant architecture and affects planting density, photosynthetic efficiency, and ventilation. An extremely narrow or wide tiller angle adversely affects rice yield.
Su Jang +6 more
semanticscholar +5 more sources
Phylogenetic and functional analysis of tiller angle control homeologs in allotetraploid cotton [PDF]
Frontiers in Plant Science, 2023 Introduction Plants can adapt their growth to optimize light capture in competitive environments, with branch angle being a crucial factor influencing plant phenotype and physiology.
F. Kangben +6 more
semanticscholar +6 more sources
An auxin response factor regulates tiller angle and shoot gravitropism by directly activating related gene expression in rice [PDF]
Journal of Advanced ResearchGraphical ...
Wenfu Chen, Xiaoxue Wang
exaly +5 more sources
LAZY5 acts in an LAZY1‐independent pathway to regulate rice tiller angle [PDF]
Plant Biotechnology JournalTiller angle is a key agronomic trait that influences plant architecture and thus grain yield by optimizing rice planting density. Although great progress has been made in understanding the LAZY1‐dependent pathway mediating rice tiller angle, the genetic
Hongwei Xue, , Jiayang Li
exaly +5 more sources
LAZY3 interacts with LAZY2 to regulate tiller angle by modulating shoot gravity perception in rice [PDF]
Plant Biotechnology Journal, 2023 Summary Starch biosynthesis in gravity‐sensing tissues of rice shoot determines the magnitude of rice shoot gravitropism and thus tiller angle. However, the molecular mechanism underlying starch biosynthesis in rice gravity‐sensing tissues is still ...
Yueyue Cai, Linzhou Huang, Yuqi Song
exaly +5 more sources
Application of Image-Based Phenotyping for QTL Identification of Tiller Angle in Rice (Oryza sativa L.) [PDF]
PlantsRice tiller angle is a key agronomic trait that regulates plant architecture and plays a critical role in determining rice yield. Given that tiller angle is regulated by multiple genes, it is important to identify quantitative trait loci (QTL) associated
Yoon-Hee Jang +10 more
semanticscholar +6 more sources
The LPA1–ITA1–BRXL4 module regulates shoot gravitropism and tiller angle in rice [PDF]
Plant CommunicationsTiller angle is a critical agronomic trait that influences rice plant architecture and yield potential. However, the molecular mechanisms underlying its regulation remain incompletely understood.
Cheng Fang +16 more
semanticscholar +6 more sources
Identification of novel QTL for tiller angle on chromosome 2H and 5H in barley [PDF]
BMC Plant BiologyTiller angle is a critical agronomic trait determining plant architecture, planting density, and grain yield in cereal crops. However, the genetic of tiller angle in barley remains largely unexplored, particularly regarding the underlying quantitative ...
Zhiqiang Wang +12 more
semanticscholar +4 more sources
A DOF transcription factor GLW9/OsDOF25 regulates grain shape and tiller angle in rice [PDF]
Plant Biotechnology JournalGrain shape and tiller angle are two important agronomic traits influencing grain yield and quality in rice. Herein, we map‐based cloned a grain shape gene GLW9 (Grain Length and Width on chromosome 9), which encodes a DNA binding with one finger (DOF ...
Junxiao Chen, Hao Zhou, Yuqing He
exaly +5 more sources
A Novel Tiller Angle Gene, TAC3, together with TAC1 and D2 Largely Determine the Natural Variation of Tiller Angle in Rice Cultivars [PDF]
PLOS Genetics, 2016 Tiller angle is one of the most important components of the ideal plant architecture that can greatly enhance rice grain yield. Understanding the genetic basis of tiller angle and mining favorable alleles will be helpful for breeding new plant-type varieties. Here, we performed genome-wide association studies (GWAS) to identify genes controlling tiller
Haijiao Dong +11 more
europepmc +6 more sources