南方农业学报2025,Vol.56Issue(4):1056-1069,14.DOI:10.3969/j.issn.2095-1191.2025.04.005
干旱胁迫下芋叶片转录组分析
Transcriptome analysis of taro(Colocasia esculenta)leaves under drought stress
摘要
Abstract
[Objective]This study aimed to clarify the key pathways and related genes of taro leaves in response to drought stress,analyze the gene expression patterns under drought conditions,and explore the molecular response mecha-nisms.The findings would provide theoretical references for understanding the molecular mechanisms of taro's drought regulation and for breeding different drought tolerant taro varieties in the future.[Method]Using Lipu taro as the experi-mental material,leaf samples were collected after consecutive 7 d of drought treatment as the treatment group,while leaf samples from plants watered daily served as the control group.Transcriptome sequencing was performed to identify dif-ferentially expressed genes,which were then subjected to GO functional annotation and KEGG pathway enrichment analysis.[Result]Under drought stress,there were 1613 differentially expressed genes(DEGs),including 1043 up-regulated and 570 down-regulated genes.GO functional annotation analysis revealed that the DEGs were categorized into three major functional groups:molecular function,cellular component,and biological process.In the molecular function category,DEGs were annotated to binding and catalytic activity.In the cellular component category,DEGs were anno-tated to cellular anatomical entities and protein-containing complexes.In the biological process category,DEGs were an-notated to cellular processes and metabolic processes.KEGG signaling pathway enrichment analysis showed that 85.00%of the DEGs were enriched in metabolic pathway.Among these,the DEGs were primarily enriched in the glutathione me-tabolism pathway and the starch and sucrose metabolism pathway,with 11 and 19 DEGs identified in each pathway re-spectively.Under drought stress,a total of 112 differentially expressed transcription factors(TFs)were identified,mainly including members of the bHLH,ERF,WRKY and NAC families.Among all differentially expressed TFs,82.14%showed up-regulated transcription levels under drought conditions.Plant hormone signal transduction,carotenoid biosynthesis,and the MAPK signaling pathway-plant were identified as key abscisic acid-responsive pathways involved in drought response,influencing stomatal closure in taro leaves and seed dormancy to cope with drought stress.The relia-bility of the transcriptome data was confirmed by quantitative real-time PCR analysis.[Conclusion]Under drought stress,the gene expression in the glutathione metabolism pathway,the starch and sucrose metabolism pathway,and transcription factors in taro leaves is affected.Most TFs are positively involved in regulating taro plant's drought response.关键词
芋/干旱胁迫/转录组/谷胱甘肽代谢/淀粉和蔗糖代谢Key words
taro/drought stress/transcriptome/glutathione metabolism/starch and sucrose metabolism分类
农业科技引用本文复制引用
李慧楠,何芳练,邱祖杨,刘莉莉,董伟清..干旱胁迫下芋叶片转录组分析[J].南方农业学报,2025,56(4):1056-1069,14.基金项目
National Natural Science Foundation of China(32460756) (32460756)
Guangxi Key Research and Development Project(Guike AB20297041) (Guike AB20297041)
Science and Technology Development Fund of Guangxi Academy of Agricultural Sciences(Gui-nongke 2022JM58) (Gui-nongke 2022JM58)
Guangxi Lipu Taro Experimental Station Project(TS202113) (TS202113)
