首页|期刊导航|茶叶科学|茶树ICE基因家族鉴定及CsICE43克隆和低温表达分析

茶树ICE基因家族鉴定及CsICE43克隆和低温表达分析

朱倩邵陈禹周彪刘硕谦刘仲华田娜

茶叶科学2025，Vol.45Issue(1)：43-60,18.

茶树ICE基因家族鉴定及CsICE43克隆和低温表达分析

Identification of Tea ICE Gene Family and Cloning and Expression Analysis of CsICE43 under Low-temperature

朱倩 ¹邵陈禹 ¹周彪 ¹刘硕谦 ¹刘仲华 ¹田娜¹

作者信息

1. 国家植物功能成分利用工程技术研究中心,湖南农业大学茶学教育部重点实验室,湖南长沙 410128
折叠

摘要

Abstract

In recent years,extreme low-temperature weather has frequently occurred worldwide,significantly affecting the yield and quality of tea plants.The ICE(Inducer of CBF expression)gene family plays a crucial role in the low-temperature stress response of plants.However,research specifically focused on tea plants is still limited.This study identified 51 ICE genes from the tea genome and performed a bioinformatics analysis to examine their physical and chemical properties,gene structure,and promoter cis-acting elements.The promoter regions of the CsICE genes are rich in cis-acting elements related to light response,plant hormones,growth and development,and abiotic stress,suggesting their involvement in various stress responses.Transcriptome analysis and RT-qPCR verification indicate that the expression of the CsICE43 increased 4.24 folds under low-temperature conditions,highlighting its potential role in the low-temperature response of tea plants.To further investigate this,the cDNA of tea cultivar'Baojing Golden Tea No.1'was used as a template to clone the CsICE43 gene.Its expression varied across tissues,with exceptionally high levels observed in terminal buds and young leaves.Further amino acid sequence and phylogenetic tree analysis indicate that the CsICE43 gene contains conserved domains such as S-rich,bHLH,and ACT,which are consistent with other members of the ICE family.It is closely related to Actinidia eriantha.The STRING online database utilized Arabidopsis thaliana AtICEs to hypothesize potential interactions between CsICE proteins and HOS1,MYB15,and DREB1/2.Subcellular localization experiments demonstrate that CsICE43 is located in the nucleus,which is consistent with the findings from the transmembrane structure analysis.In summary,this study suggests that the CsICE43 gene may be associated with the low-temperature response in tea plants,providing a theoretical foundation for further exploration of its gene function and the molecular mechanisms underlying cold resistance.

关键词

茶树/ICE基因家族/抗寒/生物信息学/表达分析

Key words

Camellia sinensis/ICE gene family/cold resistance/bioinformatics/expression analysis

分类

农业科学

引用本文复制引用

朱倩,邵陈禹,周彪,刘硕谦,刘仲华,田娜..茶树ICE基因家族鉴定及CsICE43克隆和低温表达分析[J].茶叶科学,2025,45(1):43-60,18.

基金项目

国家重点研发计划项目(2021YFD1200203)、国家自然科学基金联合基金重点项目(U22A20500)、湖南省现代农业产业技术体系项目(HARS-10)、国家茶树育种联合攻关项目(GJCSYZLHGG-12) （2021YFD1200203）

茶叶科学

OA北大核心

ISSN：1000-369X

访问量0

下载量0

段落导航