Integrated single-nucleus transcriptomic and metabolomic insights into bud-to-leaf development and metabolite synthesis in tea plant
Xuecheng Zhao, Xiaoying Xu, Ning Chi, Yiming Liu, Xinxin Zhou, Jiqiang Jin, Chunlei Ma, Jianqiang Ma, Wei Chen, Mingzhe Yao, Liang Chen

TL;DR
This study explores how tea plant buds develop into leaves and how metabolites are produced using advanced genetic and chemical analysis techniques.
Contribution
The study integrates single-nucleus transcriptomics and metabolomics to uncover novel regulatory components in tea plant bud-to-leaf development and metabolite synthesis.
Findings
Key enzymes in flavonoid biosynthesis are localized to palisade mesophyll cells.
CsmiRNA396b regulates leaf development by inhibiting CsGRF3 expression.
CsUGT94P1 catalyzes flavonol glycoside formation in vitro.
Abstract
The tea plant is an important nonalcoholic beverage crop known for its abundant secondary metabolites, particularly in buds and leaves. However, the coordinated regulation of bud-to-leaf development and metabolism remains poorly understood. Here, we applied single-nucleus RNA sequencing (snRNA-Seq), bulk RNA sequencing (RNA-Seq), and metabolomics to comprehensively profile the developmental trajectory and metabolic characteristics of tea plant buds and leaves. The snRNA-Seq analysis revealed 17 cell clusters and 8 cell types in buds and leaves, respectively. Notably, the proportion of palisade mesophyll (PM) cells increased progressively during development, while proliferating cells (PC) decreased. Interestingly, key enzymes in the flavonoid biosynthetic pathway were specifically localized to PM cells. Metabolomic analyses demonstrated dynamic accumulation patterns of various…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsPhotosynthetic Processes and Mechanisms
