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基于转录组分析的茶树自交不亲和相关基因挖掘

陈宇宏饶佳怡阳虹谢念祠于晶段继华雷雨彭明安李赛君

茶叶通讯2026，Vol.53Issue(1)：33-40,8.

茶叶通讯2026，Vol.53Issue(1)：33-40,8.DOI:10.20178/j.cnki.ISSN1009-525X.2026.01.004

基于转录组分析的茶树自交不亲和相关基因挖掘

Identification of Self-incompatibility Related Genes in Tea Based on Transcriptomic Analysis

陈宇宏 ¹饶佳怡 ²阳虹 ²谢念祠 ¹于晶 ¹段继华 ¹雷雨 ¹彭明安 ³李赛君¹

作者信息

1. 湖南省农业科学院茶叶研究所,湖南长沙 410125||国家中小叶茶树种质资源圃(长沙),湖南长沙 410125||岳麓山实验室,湖南长沙 410128||湖南省茶树品种与种苗工程技术研究中心,湖南长沙 410125
2. 湖南省农业科学院茶叶研究所,湖南长沙 410125
3. 吉首市农业农村局,湖南吉首 416001
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摘要

Abstract

Tea plants(Camellia sinensis)exhibit significant self-incompatibility(SI),which severely hinders its genetic breeding and seed production.In this study,using tea cultivars'Jinxuan'and'Baojing Huangjincha 1#'as materials,the key barrier stage and molecular mechanism of tea plant self-incompatibility were systematically investigated through cytological observation and transcriptome analysis.Fluorescence microscopy observations revealed that the critical period of the self-incompatibility response occurs at 48 hours after pollination.At this time,the elongation rate of self-pollen tubes in the style was significantly slower than that of cross-pollen tubes,and they cannot effectively enter the ovary to complete fertilization in the ovules.Transcriptome analysis identified a total of 545 differentially expressed genes(DEGs).KEGG enrichment analysis showed that these genes are significantly enriched in pathways such as"Plant hormone signal transduction","MAPK signaling pathway",and"Cutin,suberine and wax biosynthesis".Further studies indicated that the expression of multiple signal pathway-related genes in the style was significantly upregulated after self-pollination,including calcium-binding proteins,auxin synthesis-related genes,and cell wall synthase enzymes.These genes may be involved in the self-incompatibility process by regulating pollen tube growth inhibition and cell recognition responses.This study reveals the key barrier stage and molecular regulatory network of tea plant self-incompatibility at the cellular and molecular levels.The key genes screened provide important candidates for deciphering the mechanism of tea plant self-incompatibility and lay a theoretical foundation for improving the reproductive characteristics of tea plants through molecular approaches in the future.

关键词

茶树/自交不亲和/花粉管生长/转录组分析

Key words

Camellia sinensis/Self-incompatibility/Pollen tube growth/Transcriptome analysis

分类

农业科技

引用本文复制引用

陈宇宏,饶佳怡,阳虹,谢念祠,于晶,段继华,雷雨,彭明安,李赛君..基于转录组分析的茶树自交不亲和相关基因挖掘[J].茶叶通讯,2026,53(1):33-40,8.

基金项目

湖南省农业科技创新项目(2024CX81) （2024CX81）

茶叶通讯

ISSN：1009-525X

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