Lifei Xia scite author profile

Lifei Xia

3Publications

8Citation Statements Received

101Citation Statements Given

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Affiliations

Tea Research Institute, Yunnan Academy of Agricultural Sciences

Publications

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Transcriptome profiling of the fertile parent and sterile hybrid in tea plant flower buds

Chen

Xia

et al. 2019

Hereditas

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Background The tea plant is a crucial economic crop. The floral organ development consumes a large amount of nutrients, which affects the leaf yield. To understand the mechanism by which the tea plant produces sterile floral buds, we obtained a sterile tea plant by artificial hybridization. RNA-sequencing based transcriptome analysis was implemented in three samples to determine the differentially expressed genes (DEGs) related to flower development. Results In this study, a total of 1991 DEGs were identified; 1057 genes were up-regulated and 934 genes were down-regulated in sterile hybrid floral buds. These were mainly distributed in the regulation of biological and metabolic processes. Significantly, auxin biosynthesis genes YUCCA , AUX1 and PIN were dramatically down-regulated, and ARF gene was up-regulated in the sterile hybrid floral buds, and flower development-related genes AP1 , AP2 and SPL were changed. A total of 12 energy transfer-related genes were significantly decreased. Furthermore, the expression of 11 transcription factor genes was significantly different. Conclusion The transcriptome analysis suggested that the production of sterile floral buds is a complex bioprocess, and that low auxin-related gene levels result in the formation of sterile floral buds in the tea plant.

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Comparative transcriptomic analysis of the tea plant (Camellia sinensis) reveals key genes involved in pistil deletion

et al. 2020

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Background The growth process of the tea plant (Camellia sinensis) includes vegetative growth and reproductive growth. The reproductive growth period is relatively long (approximately 1.5 years), during which a large number of nutrients are consumed, resulting in reduced tea yield and quality, accelerated aging, and shortened economic life of the tea plant. The formation of unisexual and sterile flowers can weaken the reproductive growth process of the tea plant. To further clarify the molecular mechanisms of pistil deletion in the tea plant, we investigated the transcriptome profiles in the pistil-deficient tea plant (CRQS), wild tea plant (WT), and cultivated tea plant (CT) by using RNA-Seq. Results A total of 3683 differentially expressed genes were observed between CRQS and WT flower buds, with 2064 upregulated and 1619 downregulated in the CRQS flower buds. These genes were mainly involved in the regulation of molecular function and biological processes. Ethylene synthesis–related ACC synthase genes were significantly upregulated and ACC oxidase genes were significantly downregulated. Further analysis revealed that one of the WIP transcription factors involved in ethylene synthesis was significantly upregulated. Moreover, AP1 and STK, genes related to flower development, were significantly upregulated and downregulated, respectively. Conclusions The transcriptome analysis indicated that the formation of flower buds with pistil deletion is a complex biological process. Our study identified ethylene synthesis, transcription factor WIP, and A and D-class genes, which warrant further investigation to understand the cause of pistil deletion in flower bud formation.

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miRNA Analysis of Leaves of Zijuan Tea (<i>Camellia sinensis</i>) Based on High throughput Sequencing

Song¹,

Xia²,

Tian³

et al. 2019

gab

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Lifei Xia

Transcriptome profiling of the fertile parent and sterile hybrid in tea plant flower buds

Comparative transcriptomic analysis of the tea plant (Camellia sinensis) reveals key genes involved in pistil deletion

miRNA Analysis of Leaves of Zijuan Tea (<i>Camellia sinensis</i>) Based on High throughput Sequencing

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