CsCHLI plays an important role in chlorophyll biosynthesis of tea plant (<i>Camellia sinensis</i>)
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Publisher
Maximum Academic Press
Subject
Ocean Engineering
Reference39 articles.
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Wei C, Yang H, Wang S, Zhao J, Liu C, et al. 2018. Draft genome sequence of Camellia sinensis var. sinensis provides insights into the evolution of the tea genome and tea quality. Proceedings of the National Academy of Sciences of the United States of America 115:E4151−E4158
2. Li F, Deng X, Huang Z, Zhao Z, Li C, et al. 2023. Integrated transcriptome and metabolome provide insights into flavonoid biosynthesis in 'P113', a new purple tea of Camellia tachangensis. Beverage Plant Research 3:3
Li F, Deng X, Huang Z, Zhao Z, Li C, et al. 2023. Integrated transcriptome and metabolome provide insights into flavonoid biosynthesis in 'P113', a new purple tea of Camellia tachangensis. Beverage Plant Research 3:3
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Zhu B, Qiao S, Li M, Cheng H, Ma Q, et al. 2023. Strong biosynthesis and weak catabolism of theanine in new shoots contribute to the high theanine accumulation in Albino/etiolated tea plant (Camellia sinensis). Beverage Plant Research 3:23
4. Liu X, Cao J, Cheng X, Zhu W, Sun Y, et al. 2023. CsRVE1 promotes seasonal greening of albino Camellia sinensis cv. Huangkui by activating chlorophyll biosynthesis. Tree Physiology 43:1432−1443
Liu X, Cao J, Cheng X, Zhu W, Sun Y, et al. 2023. CsRVE1 promotes seasonal greening of albino Camellia sinensis cv. Huangkui by activating chlorophyll biosynthesis. Tree Physiology 43:1432−1443
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