植物胆碱单加氧酶基因家族的进化与表达分析OA
Evolution and expression analysis of the choline monooxygenase gene family in plants
植物甘氨酸甜菜碱(glycine betaine,GB)普遍存在于植物、动物、细菌、藻类中,可在细胞质中累积达到一定水平以后调节渗透压,维持细胞的水分平衡,对于植物的渗透胁迫具有重要的作用.胆碱单加氧酶(choline monooxygenase,CMO)是植物GB生物合成途径的限速酶.本研究对 168 个基因组进行分析,其中 131 个基因组中含CMO同源基因,鉴定得到 169 个CMO成员.通过基因对选择压分析,结果表明该基因主要受纯化选择,只有 7 个基因对受到正向选择.另外,CMO基因家族被划分为 6 个亚家族,除F亚家族外,5 个亚家族中均检测到正选择位点.Ring hydroxyl A结构域和Rieske结构域的选择压分析结果表明,2个结构域的dN/dS值呈极显著正相关,发生了协同进化.通过 qRT-PCR 分析显示玉米 CMO 基因在 MgSO4 胁迫下表达整体表现为上调.本研究结果从多方面探讨了CMO基因的进化与表达情况,以期为后续深入利用该基因进行作物抗逆育种提供了理论依据.
Glycine betaine(GB)is a compatible solute widely found in plants,animals,bacteria,and algae,where it plays a key role in regulating osmotic pressure and maintaining cellular water balance upon accumulation in the cytoplasm.As such,GB is crucial for plant responses to osmotic stress.Choline monooxygenase(CMO)is a rate-limiting enzyme in the biosynthetic path-way of GB in plants.Among 168 genomes analyzed in this study,131 were found to contain homologous CMO genes,with a total of 169 CMO members identified.Selective pressure analysis revealed that most gene pairs have undergone purifying selection,while only seven gene pairs exhibited signs of positive selection.Phylogenetic analysis classified the CMO gene family into six subfamilies,with positive selection sites detected in five subfamilies except subfamily F.Further analysis of the Rieske domain and Ring-hydroxyl A domain showed a significant positive correlation between their dN/dS values,suggesting co-evolution.qRT-PCR analysis demonstrated that the expression of CMO genes in maize was upregulated under MgSO4-induced stress.This study provides a comprehensive analysis of the evolution and expression of the CMO gene family,offering a theoretical founda-tion for the future application of CMO genes in improving crop tolerance to abiotic stress.
王婷;段武丽;王蕊;刘海岚
四川农业大学玉米研究所,四川 成都 611130四川农业大学玉米研究所,四川 成都 611130四川农业大学玉米研究所,四川 成都 611130四川农业大学玉米研究所,四川 成都 611130
植物甘氨酸甜菜碱胆碱单加氧酶基因选择压纯化选择玉米
plant glycine betainecholine monooxygenase geneselection pressurepurifying selectionmaize
《作物学报》 2026 (1)
44-55,12
本研究由国家自然科学基金项目(32271984)资助. This study was supported by the National Natural Science Foundation of China(32271984).
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