Mechanism Underlying the Shading-Induced Chlorophyll Accumulation in Tea Leaves

Besides aroma and taste, the color of dry tea leaves, tea infusion, and infused tea leaves is also an important index for tea quality. Shading can significantly increase the chlorophyll content of tea leaves, leading to enhanced tea leaf coloration. However, the underlying regulatory mechanism remai...

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Bibliographic Details
Published in:Frontiers in plant science 2021-12, Vol.12, p.779819-779819
Main Authors: Chen, Jiaming, Wu, Shuhua, Dong, Fang, Li, Jianlong, Zeng, Lanting, Tang, Jinchi, Gu, Dachuan
Format: Article
Language:English
Subjects:
Camellia sinensis
chlorophyll accumulation
light intensity
Plant Science
shading
transcription regulation
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Summary:Besides aroma and taste, the color of dry tea leaves, tea infusion, and infused tea leaves is also an important index for tea quality. Shading can significantly increase the chlorophyll content of tea leaves, leading to enhanced tea leaf coloration. However, the underlying regulatory mechanism remains unclear. In this study, we revealed that the expressions of chlorophyll synthesis genes were significantly induced by shading, specially, the gene encoding protochlorophyllide oxidoreductase ( ). Indoor control experiment showed that decreased light intensity could significantly induce the expression of , and thus cause the increase of chlorophyll content. Subsequently, we explored the light signaling pathway transcription factors regulating chlorophyll synthesis, including CsPIFs and CsHY5. Through expression level and subcellular localization analysis, we found that CsPIF3-2, CsPIF7-1, and CsHY5 may be candidate transcriptional regulators. Transcriptional activation experiments proved that CsHY5 inhibits transcription. In summary, we concluded that shading might promote the expression of by inhibiting the expression of , leading to high accumulation of chlorophyll in tea leaves. The results of this study provide insights into the mechanism regulating the improvements to tea plant quality caused by shading.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2021.779819