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火龙果AHL基因家族全基因组鉴定及表达分析

文蓝周奎侯黔东申洛男蔡菊杨鵾

西南农业学报2026，Vol.39Issue(1)：1-11,11.

西南农业学报2026，Vol.39Issue(1)：1-11,11.DOI:10.16213/j.cnki.scjas.2026.1.001

火龙果AHL基因家族全基因组鉴定及表达分析

Genome-wide identification and expression analysis of AHL gene family in pitaya

文蓝 ¹周奎 ¹侯黔东 ¹申洛男 ¹蔡菊 ¹杨鵾¹

作者信息

1. 贵州大学生命科学学院/山地植物资源保护与种质创新教育部重点实验室,贵阳 550025
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摘要

Abstract

[Objective]The members of the AHL gene family in pitaya were systematically identified to lay a foundation for elucidating their functions and regulatory mechanisms in growth and development of pitaya.[Method]Bioinformatics approaches were employed to analyze the gene structures,evolutionary relationships,and conserved motifs of the AHL gene family members,and RT-qPCR was further used to investi-gate their tissue-specific expression patterns.[Result]A total of 20 HpAHL genes were identified and distributed across 10 chromosomes,des-ignated as HpAHL1 to HpAHL20 according to their chromosomal locations.The HpAHL family exhibited diversity in gene structure(exon-in-tron and UTR organization),and all members contained typical AT-hook conserved motifs.Phylogenetic analysis classified the HpAHL into two clades(A and B)and revealed high homology with Arabidopsis AHL genes.Collinearity analysis further indicated gene duplication events within the HpAHL family,with stronger syntenic relationships to Arabidopsis than to rice.Tissue-specific expression profiling demonstrated dif-ferential expression of HpAHLs in roots,thorns,flower buds and stems.Among them,13 members including HpAHL1 were highly expressed in thorns,HpAHL14 and HpAHL17 showed relatively high expression in flower buds,and HpAHL11 was highly expressed in roots.Promoter se-quence analysis revealed that HpAHL promoters were enriched with cis-acting elements related to growth,development and stress responses.[Conclusion]The HpAHLs gene family is highly conserved,yet its members display significant physicochemical diversity.All proteins contain typical AT-hook and PPC/DUF296 domains,and their promoter regions harbour cis-elements associated with growth,development,hormone response and stress adaptation.The 20 genes are differentially expressed in roots,stems,thorns,flower buds,axillary buds,seeds,mature peri-carps and mature pulp.These findings provide essential sequence information and spatiotemporal expression profiles for the functional charac-terization of AHLs genes in pitaya.

关键词

火龙果/AHL基因家族/全基因组鉴定/组织特异性表达

Key words

Pitaya/AHL gene family/Genome-wide identification/Tissue-specific expression

分类

农业科技

引用本文复制引用

文蓝,周奎,侯黔东,申洛男,蔡菊,杨鵾..火龙果AHL基因家族全基因组鉴定及表达分析[J].西南农业学报,2026,39(1):1-11,11.

基金项目

国家自然科学基金项目(32160681) （32160681）

西南农业学报

ISSN：1001-4829

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