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Transcriptomic analysis on cucumber tendril reveals GLRs play important roles in thigmotropism and thigmomorphogenesis: 《Horticultural Plant Journal》2024年第5期1177-1186,共10页Mengzhuo Zhang Bowen Wang Shenhao Wang Tongxu Xin Keyi Ye Sanwen Huang Xueyong Yang; National Key R&D Program of China(Grant No.2019YFA0906200);the Science and Technology Innovation Team of Shaanxi(Grant No.2021TD-32);the Science and Technology Innovation Program of the Chinese Academy of Agricultural Sciences(Grant Nos.CAAS-ASTIP and CAAS-ZDRW202009).; Thigmotropism and thigmomorphogenesis are two related and pervasive processes that play crucial roles in plant adaptation to the environment.However,there have been few investigations into the molecular regulatory mec...; 关键词：CUCUMBER Thigmotropism Thigmomorphogenesis TRANSCRIPTOME TENDRIL GLUTAMATE RECEPTOR

The intrinsic developmental age signal defines an age-dependent climbing behavior in cucumber: 《Horticultural Plant Journal》2024年第3期797-808,共12页Zezhou Hong Xinrui Wang Zipei Fan Jiahao Wang Aiyi Yang Guochao Yan Yong He Huasen Wang Zhujun Zhu Yunmin Xu; supported by the Natural Science Foundation of Zhejiang province(Grant Nos.LZ20C150001,LY21C150002);National Natural Science Foundation of China(Grant No.32202583).; The tendril is a climbing organ in cucurbits and functions in physical support and to avoid shading by neighboring vegetation.However,how cucurbits produce tendrils to obtain climbing ability is largely unknown.In thi...; 关键词：CUCUMBER TENDRIL Age CsmiR156 CsSPL Climbing ability

Polyploidy events shaped the expansion of transcription factors in Cucurbitaceae and exploitation of genes for tendril development被引量：5: 《Horticultural Plant Journal》2022年第5期562-574,共13页Yu Zhang Yingchao Zhang Bing Li Xiao Tan Changping Zhu Tong Wu Shuyan Feng Qihang Yang Shaoqin Shen Tong Yu Zhuo Liu Xiaoming Song; supported by the Natural Science Foundation of Hebei(Grant No.C2021209005);National Natural Science Foundation of China(Grant No.32172583);the Natural Science Foundation for Distinguished Young Scholar of Hebei Province(Grant No.C2022209010);the China Postdoctoral Science Foundation(Grant Nos.2020M673188,2021T140097).; Cucurbitaceae is one of the most important plant families distributed worldwide.Transcription factors(TFs)regulate plant growth at the transcription level.Here,we performed a systematic analysis of 42641 TFs from 63 f...; 关键词：CUCURBITACEAE Transcription factors(TFs) Whole-genome duplication(WGD) Expansion and contraction TCP gene family Tendrilrelated genes(TEN)

Macroscopic and microscopic mechanical behaviors of climbing tendrils被引量：1: 《Acta Mechanica Sinica》2019年第3期702-710,共9页Q.Guo J.J.Dong Y.Liu X.H.Xu Q.H.Qin J.S.Wang; the National Natural Science Foundation of China (Grants 11872273, 11472191, 11602163, and 11672297);the Major Program of the National Science Foundation of China (Grant 11890683);the Opening Fund of State Key Laboratory of Nonlinear Mechanics;the Australian Endeavour Research Fellowship.; Tendril-bearing climbing plants must recur to the tendril helices with chiral perversion or dual chirality for climbing and to obtain sun exposure. Despite researchers' prolonged fascination with climbing tendrils sin...; 关键词：CLIMBING TENDRIL Mechanical behaviors STRUCTURE-PROPERTY relationship Large ELONGATION

A transcriptome analysis of two grapevine populations segregating for tendril phyllotaxy: 《Horticulture Research》2017年第1期208-218,共11页Jie Arro Jose Cuenca Yingzhen Yang Zhenchang Liang Peter Cousins Gan-Yuan Zhong; The shoot structure of cultivated grapevine Vitis vinifera L.typically exhibits a three-node modular repetitive pattern,two sequential leaf-opposed tendrils followed by a tendril-free node.In this study,we investigate...; 关键词：VITIS analysis PATTERN

Rare SNP Identified a TCP Transcription Factor Essential for Tendril Development in Cucumber被引量：15: 《Molecular Plant》2015年第12期1795-1808,共14页Shenhao Wang Xueyong Yang Mengnan Xu Xingzhong Lin Tao Lin Jianjian Qi Guangjin Shao Nana Tian QingYang Zhonghua Zhang Sanwen Huang; Rare genetic variants are abundant in genomes but less tractable in genome-wide association study. Here we exploit a strategy of rare variation mapping to discover a gene essential for tendril development in cucumber ...; 关键词：rare variant TCP transcription factor cucumber tendril homologous organs

Tendril-Based Climbing Plants to Model, Simulate and Create Bio-Inspired Robotic Systems: 《Journal of Bionic Engineering》2015年第2期250-262,共13页Renato Vidoni Tanja Mimmo Camilla Pandolfi; Bioinspiration can be considered one of the keys for future smart and versatile robotic systems. Plants could be an im- portant source of ideas despite the fact that they have not yet been deeply observed and consider...; 关键词：climbing plants robotic tendril kinematic model Shape-Memory-Alloy （SMA） GRASPING

LATHYROIDES, Encoding a WUSCHEL-Related Homeoboxl Transcription Factor, Controls Organ Lateral Growth, and Regulates Tendril and Dorsal Petal Identities in Garden Pea （Pisum sativum L.）被引量：8: 《Molecular Plant》2012年第6期1333-1345,共13页Li-Li Zhuang Mike Ambrose Catherine Rameau Lin Weng Jun Yang Xiao-He Hu Da Luo Xin Li; National Natural Science Foundation of China，Science and Technology Planning Project of Guangdong Province,China; During organ development, many key regulators have been identified in plant genomes, which play a conserved role among plant species to control the organ identities and/or determine the organ size and shape. It is int...; 关键词：PEA LATH LST TL lateral growth organ identity.

Neuro-muscular" mechanism in rapid coiling of Luffa tendril被引量：1: 《Chinese Science Bulletin》1995年第24期2062-2066,共5页花宝光杨文定厉秀茹娄成后; the National Natural Science Foundation of China.; Darwin, in his retiring years, conducted long-term studies at home on various modes of the movement of ordinary plant organs and sensitive floral parts, in climbing and twining plants, and in insectivorous plants. His...; 关键词：neuro-muscular' mechanism RAPID COILING LUFFA tendril.

Electrochemical wave transmission and rapid coiling movement in tendril of luffa被引量：1: 《Science China Chemistry》1995年第8期944-953,共10页杨文定娄成后; the National Natural Science Foundation of China.; The tendril of luffa (Luffa officinale),in response to various non-injurious and injuriousstimulations,will first give rise to electrochemical transmission including the action wave,variation wave,andwave complex.It i...; 关键词：TENDRIL COILING electrical wave transmission protoplasmic CONTRACTION LUFFA cylindrica

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