37 Papers
156 Citations
Wang Ye is an academic researcher from Civil Aviation Authority of Singapore. The author has contributed to research in topics: Cucumis & Indel. The author has an hindex of 11, co-authored 37 publications.
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Papers
Biosynthesis, regulation, and domestication of bitterness in cucumber
Yi Shang,Yongshuo Ma,Yuan Zhou,Huimin Zhang,Lixin Duan,Huiming Chen,Jianguo Zeng,Qian Zhou,Shenhao Wang,Wenjia Gu,Min Liu,Jinwei Ren,Xingfang Gu,Shengping Zhang,Wang Ye,Ken Yasukawa,Harro J. Bouwmeester,Xiaoquan Qi,Zhonghua Zhang,William J. Lucas,Sanwen Huang +20 more
TL;DR: Along the way, Shang et al. have worked out the biosynthetic pathway of cucurbitacin and discovered genetic traces of the domestication process and unraveled the mystery of why some cucumbers, if grown in chilly conditions, become bitter.
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Genetic analysis and gene mapping of papaya ring spot virus resistance in cucumber
TL;DR: Results from this study provide a valuable tool for fine mapping, gene cloning, and marker-assisted breeding for PRSV resistance in cucumber.
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A New Glabrous Gene (csgl3) Identified in Trichome Development in Cucumber (Cucumis sativus L.)
Jin-Ying Cui,Han Miao,Li-Hong Ding,Todd C. Wehner,Panna Liu,Wang Ye,Shengping Zhang,Xingfang Gu +7 more
TL;DR: This study will facilitate marker-assisted selection (MAS) of the smooth plant trait in cucumber breeding and provide for future cloning of csgl3, a new glabrous mutant plant identified showing a gene interaction effect with csgl1 and csgl2.
Combined fine mapping, genetic diversity, and transcriptome profiling reveals that the auxin transporter gene ns plays an important role in cucumber fruit spine development
TL;DR: Map-based cloning was used to identify NUMEROUS SPINES (NS), which regulate fruit spine development by modulating the Auxin signaling pathway, and provides a valuable framework for dissecting the regulatory mechanism for the fruit spine formation.
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A major quantitative trait locus conferring resistance to fusarium wilt was detected in cucumber by using recombinant inbred lines
TL;DR: A set of 148 F9 recombinant inbred lines derived from the cross 9110Gt × 9930 and a total of 2,416 pairs of SSR primers were used to study the inheritance of fusarium wilt resistance and to detect quantitative trait loci conferring the resistance in cucumber.
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