CUCUMIS

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Chemical Composition, Antioxidant Property, and Nematicidal Activity of Cucumis metuliferus
《Medicinal Plant》2025年第2期7-13,共7页Hao ZHANG Jianguo WANG Xuejun ZHANG Jihao CHEN Qigan LIANG Xiaofa FU Min WANG Bo ZHOU Qiang GAO Haibo WU Yuan HUANG 
Supported by Natural Science Foundation Project of Xinjiang Uygur Autonomous Region(2021D01B59);Youth Science and Technology Backbone Project of Xinjiang Academy of Agricultural Sciences(XJNKQ-2021011);General Program of Hainan Natural Science Foundation(319MS109);Major Science and Technology Program of Hainan Province(ZDKJ2021005);Specific Research Fund of the Innovation Platform for Academicians of Hainan Province(YSPTZX202141).
[Objectives]To investigate the chemical composition,antioxidant property,and nematicidal activity of Cucumis metuliferus and establish a theoretical foundation for the development of botanical nematicides.[Methods]The...
关键词:Cucumis metuliferus Botanical pesticide Chemical composition Root knot nematode Antioxidant property Nematicidal activity 
Telomere-to-telomere genome assembly of melon(Cucumis melo L.var.inodorus)provides a high-quality reference for meta-QTL analysis of important traits被引量:1
《Horticulture Research》2023年第10期202-214,共13页Minghua Wei Ying Huang Changjuan Mo Haiyan Wang Qingguo Zeng Wenli Yang Jihao Chen Xuejun Zhang Qiusheng Kong 
This work was supported by the Key R&D Project of Hubei Province(2021BBA101);the Fundamental Research Funds for the Central Universities(2662020YLPY024);the Key R&D Project of Xinjiang Academy of Agricultural Sciences(xjkcpy-2022006);the Tianshan Innovation Team(2022D14015);the China Agriculture Research System(CARS-25).
Melon is an important horticultural crop with extensive diversity in many horticultural groups.To explore its genomic diversity,it is necessary to assemble more high-quality complete genomes from different melon acces...
关键词:CUCUMIS ELITE TRAITS 
Structural characteristics of the melon mitochondria genome
《Vegetable Research》2022年第1期182-187,共6页Haonan Cui Zhuo Ding Qianglong Zhu Peng Gao 
funded by Scientific Research Foundation of Hebei Normal University of Science and Technology (2022YB004);the National Nature Science Foundation of China (U21A20229 and 31960607).
The mitochondrial genome can provide important genetic information of melon.We reported the mitochondrial genome sequence of melon in a previous study,the structural characteristics of the melon mitochondrial genome w...
关键词:CUCUMIS CHARACTERISTICS CUCURBITA 
甜瓜与非洲角(Cucumis africanus)远缘杂交诱导甜瓜双单倍体被引量:1
《果树学报》2022年第10期1824-1833,共10页黄耀 刘麒 姚协丰 王康 包卫红 钱春桃 
江苏重点育种项目(PZCZ201718);泰州2021年三新技术转化与推广示范项目。
【目的】利用远缘杂交诱导培育具有优良特性的甜瓜(Cucumis melo L.)双单倍体。【方法】选择薄皮甜瓜(C. melo ssp. agrestis)超甜小麦酥作为母本,与远缘野生种非洲角(C. africanus)进行杂交,然后进行胚拯救获得再生植株;利用SSR标记和...
关键词:甜瓜 远缘授粉 双单倍体 可溶性固形物 
Growth promotion of interspecific hybrid embryos between Cucumis anguria and Melon(C. melo) by fruit heating
《Horticultural Plant Journal》2022年第2期215-220,共6页Yuichi Matsumoto Mako Tsunamoto 
supported by the Japan Society for the Promotion of Science Kakenhi (Grant Nos. 26892023 and 18K14459)。
Wild species of the genus Cucumis, such as C. anguria, are resistant to various melon(C. melo) diseases such as Fusarium wilt race 1.2 and are anticipated as genetic resources of melon. However, in the interspecific c...
关键词:Cucumis anguria L. Interspecific cross MELON Night temperature Ovule area 
Study of JASMONATE ZIM-Domain gene family to waterlogging stress in Cucumis sativus L.
《Vegetable Research》2021年第1期14-25,共12页Jiawei Pan Jingyun Tu Rahat Sharif Xiaohua Qi Xuewen Xu Xuehao Chen 
supported by the National Natural Science Foundation of China (grant nos.32030093 and 31801883);Natural Science Foundation of Jiangsu Province (BK20180913).
Jasmonate ZIM Domain proteins(JAZs)provide a response to multiple abiotic stresses by critically regulating the JA signaling pathway.In this study,a total of 11 CsJAZ genes were identified in the cucumber genome datab...
关键词:BREEDING CUCUMIS STRESS 
Comparative Assessment of the Phytochemical and Selected Heavy Metal Levels in <i>Cucumis sativus</i>L. and <i>Solanum aethiopicum</i>L. Fruit Sample Grown in South Eastern and North Central Regions of Nigeria Respectively
《Natural Resources》2021年第8期223-236,共14页C. C. Aniobi O. Okeke E. Ezeh H. C. Okeke K. O. Nwanya 
Studies were carried out to comparatively assess the phytochemical and heavy metal levels in Solanum aethiopi...
关键词:Cucumis sativus L. Solanum aethiopicum L. Phytochemicals and Heavy Met-als North Central Region and South Eastern Region 
Chromosome-scale genome assembly of Cucumis hystrix-a wild species interspecifically cross-compatible with cultivated cucumber被引量:2
《Horticulture Research》2021年第1期655-668,共14页Xiaodong Qin Zhonghua Zhang Qunfeng Lou Lei Xia Ji Li Mengxue Li Junguo Zhou Xiaokun Zhao Yuanchao Xu Qing Li Shuqiong Yang Xiaqing Yu Chunyan Cheng Sanwen Huang Jinfeng Chen 
the National Key Research and Development Program of China(#2018YFD1000804);the National Natural Science Foundation of China(Key Program,#31430075);the Belt and Road innovation cooperation project(#BZ2019012);the National Key Research and Development Program of China(#2016YFD0100204-25);the Jiangsu Agricultural Innovation of New Cultivars(#PZCZ201719);by a project funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions.
Cucumis hystrix Chakr.(2n=2x=24)is a wild species that can hybridize with cultivated cucumber(C.sativus L.,2n=2x=14),a globally important vegetable crop.However,cucumber breeding is hindered by its narrow genetic base...
关键词:breeding alignment CLOSER 
黄瓜CsMYB108基因的克隆与序列分析被引量:3
《分子植物育种》2020年第14期4555-4561,共7页张文烁 王新国 宋林 谢可欣 徐烨 包欣悦 李胜男 周秀艳 
科技部十三五重点研发项目(2016YFD0101705)资助。
中国黄瓜品种繁多,目前黄瓜杂种优势是选育新品种的关键,杂种优势是一种植物共有的独特生物现象,然而黄瓜杂种优势的分子机理研究还尚未深入。为探究黄瓜杂种优势形成的机理,本研究中父本D0708-2田间表现为雌雄同株,早熟性佳,但是抗病...
关键词:黄瓜(Cucumis sativa L.) 杂种优势 CsMYB108 
Potential Power of the Pyramidal Structure II被引量:4
《Natural Science》2020年第5期248-272,共25页Osamu Takagi Masamichi Sakamoto Hideo Yoichi Kimiko Kawano Mikio Yamamoto 
Research on “pyramid power” began in the late 1930s. To date, many documents on “pyramid power” have been published. We have been conducting scientific research on the unexplained “power” of a pyramidal structur...
关键词:Pyramid POTENTIAL POWER MEDITATION UNCONSCIOUSNESS Non-Contact Effect Delay Biosensor CUCUMIS SATIVUS Gas 
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