Search Results - "Yao, Xinzhuan"

Establishment of a Virus-Induced Gene-Silencing (VIGS) System in Tea Plant and Its Use in the Functional Analysis of CsTCS1 by Li, Guodong, Li, Yan, Yao, Xinzhuan, Lu, Litang

“…Tea ( [L.] O. Kuntze) is an important global economic crop and is considered to enhance health. However, the functions of many genes in tea plants are unknown…”
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Study of Camellia sinensis diploid and triploid leaf development mechanism based on transcriptome and leaf characteristics by Yao, Xinzhuan, Qi, Yong, Chen, Hufang, Zhang, Baohui, Chen, Zhengwu, Lu, Litang

“…Polyploidization results in significant changes in the morphology and physiology of plants, with increased growth rate and genetic gains as the number of…”
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The Overexpression of Oryza sativa L. CYP85A1 Promotes Growth and Biomass Production in Transgenic Trees by Li, Guodong, Yao, Xinzhuan, Chen, Zhouzhuoer, Tian, Xingyu, Lu, Litang

“…Brassinosteroids (BRs) are important hormones that play crucial roles in plant growth, reproduction, and responses to abiotic and biotic stresses. CYP85A1 is a…”
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Genome-Wide Investigation and Functional Analysis Reveal That CsGeBP4 Is Required for Tea Plant Trichome Formation by Zhou, Hao, Zhou, Wei, Yao, Xinzhuan, Zhao, Qi, Lu, Litang

“…Tea plant trichomes not only contribute to the unique flavor and high quality of tea products but also provide physical and biochemical defenses for tea…”
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Global Profiling of Protein Lysine Malonylation in Eucommia ulmoides Leaves Reveals Its Role in Photosynthesis and Metabolism by Yao, Xinzhuan, Shen, Chao, Zhang, Baohui, Zhao, Degang, Lu, Litang

“…The modification of proteins by malonylation plays an important regulatory role in multiple biological processes. Protein malonylation is the reversible…”
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Evaluation of the ecological benefits of tea gardens in Meitan County, China, using the InVEST model by Liu, Shujun, Yao, Xinzhuan, Zhao, Degang, Lu, Litang

“…Tea gardens can not only improve the local ecological environment but also increase farmers’ incomes, thereby alleviating poverty, and thus achieve a win–win…”
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Genome-level diversification of eight ancient tea populations in the Guizhou and Yunnan regions identifies candidate genes for core agronomic traits by Lu, Litang, Chen, Hufang, Wang, Xiaojing, Zhao, Yichen, Yao, Xinzhuan, Xiong, Biao, Deng, Yanli, Zhao, Degang

“…The ancient tea plant, as a precious natural resource and source of tea plant genetic diversity, is of great value for studying the evolutionary mechanism,…”
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Preparation of Zn-Gly and Se-Gly and Their Effects on the Nutritional Quality of Tea ( Camellia sinensis ) by Li, Feixia, Yao, Xinzhuan, Lu, Litang, Jiao, Yujie

“…Micronutrient malnutrition affects millions of people due to a lack of Zn and Se. The process conditions for the manufacture of glycine-chelated sodium…”
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The Amplification and Activity Analysis of the Small Rubber Particle Protein (SRPP) Promoter of Eucommia ulmoides (EuSRPP) Revealed That Its Activity Was Regulated by MeJA, GA3, and Drought Pathways by Zhao, Huimin, Yao, Xinzhuan, Lu, Litang

“…As an important temperate gum source plant, Eucommia ulmoides is widely distributed in China, but the low yield of Eucommia ulmoides gum considerably affects…”
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Transcriptome Analysis Reveals Differentially Expressed Genes Involved in Aluminum, Copper and Cadmium Accumulation in Tea 'Qianmei 419' and 'Qianfu 4' by Yao, Xinzhuan, Chen, Hufang, Zhang, Baohui, Lu, Litang

“…Tea, as a global nonalcoholic beverage, is widely consumed due to its economic, health and cultural importance. Polyploids have the ability to solve the…”
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Overexpression of DBF-Interactor Protein 6 Containing an R3H Domain Enhances Drought Tolerance in Populus L. ( Populus tomentosa ) by Liu, Yang, Yao, Xinzhuan, Zhang, Lu, Lu, Litang, Liu, Renxiang

“…Drought is the primary disaster that endangers agricultural production, including animal husbandry, and affects the distribution, growth, yield, and quality of…”
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Overexpression of CsBRC, an F‐box gene from Camellia sinensis, increased the plant branching in tobacco and rice by Zhou, Bokun, Sheng, Qi, Yao, Xinzhuan, Li, Tong, Lu, Litang

“…Tea plant (Camellia sinensis [L.]) is one of the most important crops in China, and tea branch is an important agronomic trait that determines the yield of tea…”
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Chromosome-scale genome assembly of Camellia sinensis combined with multi-omics provides insights into its responses to infestation with green leafhoppers by Wang, Fen, Zhang, Baohui, Wen, Di, Liu, Rong, Yao, Xinzhuan, Chen, Zhi, Mu, Ren, Pei, Huimin, Liu, Min, Song, Baoxing, Lu, Litang

“…The tea plant ( ) is an important economic crop, which is becoming increasingly popular worldwide, and is now planted in more than 50 countries. Tea green…”
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Identification of Nutritional Ingredients and Medicinal Components of Hawk Tea and Insect Tea Using Widely Targeted Secondary Metabolomics by Sheng, Qi, Yao, Xinzhuan, Chen, Hufang, Tang, Hu, Lu, Litang

“…In this study, the metabolites in insect tea and hawk tea were analyzed by ultra-high performance liquid chromatography–triple quadrupole mass spectrometry. We…”
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Plant growth-promoting rhizobacteria (PGPR) improve the growth and quality of several crops by Zhang, Tongrui, Jian, Qinhao, Yao, Xinzhuan, Guan, Li, Li, Linlin, Liu, Fei, Zhang, Can, Li, Dan, Tang, Hu, Lu, Litang

“…Plant growth-promoting rhizobacteria (PGPR) are known to have the effect of promoting plant growth. In this paper, three PGPR strains were selected from the…”
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Genome-Wide Investigation and Functional Analysis Reveal That CsKCS3 and CsKCS18 Are Required for Tea Cuticle Wax Formation by Mo, Lilai, Yao, Xinzhuan, Tang, Hu, Li, Yan, Jiao, Yujie, He, Yumei, Jiang, Yihe, Tian, Shiyu, Lu, Litang

“…Cuticular wax is a complex mixture of very long-chain fatty acids (VLCFAs) and their derivatives that constitute a natural barrier against biotic and abiotic…”
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Finding the optimal light quality and intensity for the withering process of fuding Dabai tea and its impact on quality formation by Tian, Shiyu, Zhou, Hao, Yao, Xinzhuan, Lu, Litang

“…This study investigates the pivotal role of withering in shaping the quality of white tea. We used a single-factor experimental design to optimize both the…”
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Genome-wide characterization of the U-box gene in Camellia sinensis and functional analysis in transgenic tobacco under abiotic stresses by Li, Shiyu, Yao, Xinzhuan, Zhang, Baohui, Tang, Hu, Lu, Litang

“…Plants U-box genes are crucial for plant survival, and they extensively regulate plant growth, reproduction and development as well as coping with stress and…”
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Genome-Wide Investigation and Functional Analysis Reveal That ICsGeBP4/I Is Required for Tea Plant Trichome Formation by Zhou, Hao, Zhou, Wei, Yao, Xinzhuan, Zhao, Qi, Lu, Litang

“…Tea plant trichomes not only contribute to the unique flavor and high quality of tea products but also provide physical and biochemical defenses for tea…”
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The Overexpression of IOryza sativa/I L. ICYP85A1/I Promotes Growth and Biomass Production in Transgenic Trees by Li, Guodong, Yao, Xinzhuan, Chen, Zhouzhuoer, Tian, Xingyu, Lu, Litang

“…Brassinosteroids (BRs) are important hormones that play crucial roles in plant growth, reproduction, and responses to abiotic and biotic stresses. CYP85A1 is a…”
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