CAMELLIA_SINENSIS

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相关机构:浙江大学中国科学院大学安徽农业大学中国农业科学院茶叶研究所更多>>
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Characterization and Genetic Diversity of Tea(Camellia sinensis(L.)O.Kuntze)Genotypes for Waterlogging Tolerance
《Phyton-International Journal of Experimental Botany》2024年第12期3411-3442,共32页Md.Riyadh Arefin Md.Sabibul Haque A.K.M.Golam Sarwar 
Tea estates in Bangladesh are currently experiencing frequent waterlogging stress due to heavy rainfall or flooding under changing climate scenarios.The development of waterlogging-tolerant tea cultivars is,therefore,...
关键词:TEA genotypic diversity waterlogging tolerance qualitative traits multivariate analysis 
Genome-Wide Identification of ABCC Gene Subfamily Members and Functional Analysis of CsABCC11 in Camellia sinensis
《Phyton-International Journal of Experimental Botany》2024年第8期2019-2036,共18页Mingyuan Luo Shiyu Tian Xinzhuan Yao Yue Wan Zhouzhuoer Chen Zifan Yang Huagen Hao Fei Liu Hu Tang Litang Lu 
supported by the Guizhou University Talent Introduction Program([2021]05);Guizhou University Cultivation Program([2020]48);Institute of Technology of YF([2022]017);Guizhou Province High-Level Innovative Talents“Hundred”Level Talent Project(Qiankehe Platform Talent)GCC[2023]014;Supported by the earmarked fund for GZMARS-Tea and Research on the Planting Technology of China HUANENG Photovoltaic Tea Garden(Project No.HNKJ2022-H135).
The ATP-binding cassette(ABC)transporter is a gene superfamily in plants.ATP-binding cassette subfamily C(ABCC)protein is a multidrug resistance-associated(MRP)transporter.They play various roles in plant growth,devel...
关键词:Camellia sinensis ABCC gene subfamily EGCG VIGS guizhou local variety Kingbird 
Correlation and Pathway Analysis of the Carbon,Nitrogen,and Phosphorus in Soil-Microorganism-Plant with Main Quality Components of Tea(Camellia sinensis)
《Phyton-International Journal of Experimental Botany》2024年第3期487-502,共16页Chun Mao Ji He Xuefeng Wen Yangzhou Xiang Jihong Feng Yingge Shu 
This work was supported by Guizhou Provincial Basic Research Program(Natural Science),Grant Number Qiankehejichu-ZK[2021]YB133;Guizhou Provincial Scientific and Technological Program,Grant Number Qiankehehoubuzhu[2020]3001;National Natural Science Foundation of China-Guizhou Provincial People’s Government Karst Science Research Centre(U1612442).
The contents of carbon(C),nitrogen(N),and phosphorus(P)in soil-microorganisms-plant significantly affect tea quality by altering the main quality components of tea,such as tea polyphenols,amino acids,and caffeine.Howev...
关键词:Soil-microorganisms-plant system CARBON NITROGEN PHOSPHORUS tea quality path analysis 
Characterization and Pathogenicity of Pseudopestalotiopsis vietnamensis Causing Gray Blight of Wuyi Rock Tea(Camellia sinensis)in China and Specific Mechanisms of Disease Infection被引量:1
《Phyton-International Journal of Experimental Botany》2023年第1期131-147,共17页Guangheng Wu Lu Rui Xiang Lu Libo Han Gan Lv Xianyu Fu Jinxian Liu Nong Zhou Chuanhai Zhang 
supported by the Central Special Project for Fujian Local Science and Technology Development(2020L3025);the Fujian Natural Science Foundation(2020J01410);a Fujian Education and Scientific Research Project(JAT190789);the Talent-Recruiting Program of Wuyi University(YJ201503);the Open Fund of Fujian Provincial Key Laboratory of Eco-Industrial Green Technology(WYKF2019-2);a Chongqing Natural Science Foundation Project(cstc2021jcyj-msxmX0322);the Scientific and Technological Research Program of Chongqing Municipal Education Commission(KJQN202101246).
Gray blight disease(GBD)causes significant losses in tea production in China.Although genes and biological processes involved in resistance to fungal disease in tea plants have been identified,specific mechanisms of t...
关键词:Chitin-related MAPK pathways gray blight disease Pseudopestalotiopsis TEA transcriptional analysis 
Genome-Wide Characterization of the Cellulose Synthase Gene Superfamily in Tea Plants(Camellia sinensis)
《Phyton-International Journal of Experimental Botany》2022年第10期2163-2189,共27页Qianqian Li Qi Zhao Xinzhuan Yao Baohui Zhang Litang Lu 
the Technology Creation Center of Guizhou Tea Industrialization(Qiankezhongyindi[2017]4005);Training Project for Guizhou Excellent Young Scientific and Technological Talents(Qiankehe Platform Talent[2019]5651);Guizhou Science and Technology Planning Project(Qiankehe Support[2021]General 111)to Litang Lu,and Research Funds for Introduced Talents of Guizhou University to Qi Zhao.
The cellulose synthase gene superfamily,including Cellulose synthase A(CesA)and cellulose synthase-like(Csl)gene families,is responsible for the synthesis of cellulose and hemicellulose,respectively.The CesA/Csl genes...
关键词:Tea plant(Camellia sinensis) cellulose synthase superfamily PHYLOGENY stress resistance shoot tenderness regulation 
Population Structure Analysis and Genome-Wide Association Study of Tea(Camellia sinensis(L.)Kuntze)Germplasm in Qiannan,China,Based on SLAF-Seq Technology被引量:2
《Phyton-International Journal of Experimental Botany》2022年第4期791-809,共19页Fen Zhang Weili Tian Lu Cen Litang Lv Xiaofang Zeng Yulu Chen Yichen Zhao Yan Li 
This work was supported by the Science and Technology Foundation of Guizhou Province[20181044];the Construction Program of Biology First-Class Disciplining Guizhou(GNYL[2017]009);the Young Scholars and Technology Talents Development Project of Guizhou Education Department KY(2018)124,and the Independent Subject Grant Open Project of the Key Laboratory of Mountain Plant Resources Conservation and Plantation Innovation of the Ministry of Education(Guizhou University).
Duyun Maojian tea is a famous tea in China.In this study,the specific-locus amplified fragment(SLAF)sequencing method was used to analyze the population structure and conduct a genome-wide association study(GWAS)of 2 ...
关键词:Duyun maojian tea plant SLAF-seq SNP genetic structure leaf character GWAS 
Do Strigolactones Regulate Bud Winter Dormancy and Charactrisitc Secondary Metabolism in Tea?
《Phyton-International Journal of Experimental Botany》2021年第1期65-73,共9页Lin Feng Ziming Gong Guofeng Liu Yanli Liu 
This work was financially supported by the China Postdoctoral Science Foundation(2018M632821);the Open Fund of State Key Laboratory of Tea Plant Biology and Utilization(SKLTOF 20180105);China agriculture research system(CARS-19);Hubei Natural Science Foundation Project(2019CFB178);Natural Science Foundation of Hubei Academy of Agricultural Sciences(2021NKYJJ13);the Agricultural Science and Technology Innovation Project of Hubei Province(2019-620-000-001-24).
Tea(Camellia sinensis[L.]O.Kuntze.)is an important cash crop,which mainly uses tender shoots and young leaves for manufacturing.Due to the marketing characteristic that earlier made tea has higher price,the time of th...
关键词:Camellia sinensis STRIGOLACTONES winter dormancy secondary metabolites 
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