青稞HvvCYP90A基因的克隆及其抗盐功能初步分析OA
Cloning and Preliminary Analysis of Salt Resistance Function of HvvCYP90A Gene in Hordeum vulgare var.nudum
CYP90A 亚家族基因在单子叶植物中功能尚不明确,可能参与植物激素油菜素内酯(brassinosteroids,BRs)的合成.本研究以高原特色作物青稞(Hordeum vulgare var.nudum)为实验材料,利用其基因组数据库,鉴定青稞CYP90A亚家族基因,克隆其cDNA序列,对其进行生物信息学和表达模式分析,并通过遗传转化拟南芥(Arabidopsis thaliana)探索该基因在植物抗盐方面的功能.结果显示,青稞基因组中只发现1个CYP90A亚家族基因,命名为HvvCYP90A(GenBank No.PZ381667).HvvCYP90A基因编码区长度为1 542 bp,编码513个氨基酸.青稞与大麦(H.vulgare)的CYP90A基因编码区相似度高达96.76%,但启动子序列差异很大,HvvCYP90A具有干旱、昼夜节律等特有响应元件.进化分析显示,CYP90A基因在单、双子叶植物间存在分化,但在不同物种间的数量无明显变化规律.随青稞幼苗的生长,HvvCYP90A在根中的表达量逐渐降低,而在叶中逐渐升高,同时,HvvCYP90A的表达受外源28-高油菜素内酯(28-homobrassinolide,HBR)的抑制.此外,将HvvCYP90A转入拟南芥后,与野生型相比,在正常和盐胁迫条件下,转基因拟南芥的根长均显著增加(P<0.05).推测HvvCYP90A基因通过参与BRs合成调节拟南芥的抗盐性.本研究为油菜素内酯调节青稞的盐胁迫适应机制提供参考.
The function of the CYP90A subfamily genes in monocots remains unclear,but they are likely involved in the biosynthesis of the plant hormone brassinosteroids(BRs).This study used Hordeum vulgare var.nudum,a characteristic crop of the plateau,as the experimental material.By utilizing its genomic database,the CYP90A subfamily gene of H.vulgare var.nudum was identified,its cDNA sequence was cloned,and bioinformatics and expression pattern analyses were conducted.Additionally,genetic transformation of Arabidopsis thaliana was performed to explore its functions of salt resistance.The results showed that only one CYP90A subfamily gene was found in H.vulgare var.nudum genome,named HvvCYP90A.The coding region of the HvvCYP90A gene was 1 542 bp long,encoding 513 amino acids.The coding region similarity between the CYP90A genes of H.vulgare var.nudum and H.vulgare was as high as 96.76%,but there are significant differences in the promoter sequences,with HvvCYP90A having unique response elements for drought and circadian rhythm.Evolutionary analysis revealed that the CYP90A gene was differentiated between monocots and dicots,but there was no obvious regulation in the number of genes among different species.As the seedlings of H.vulgare var.nudum grew,the expression of HvvCYP90A gradually decreased in the roots but increased in the leaves.Moreover,the expression of HvvCYP90A was inhibited by exogenous 28-homobrassinolide(HBR).Additionally,after transferring HvvCYP90A into A.thaliana,the root length of transgenic A.thaliana was significantly increased compared with the wild type(P<0.05)under normal and salt stress conditions.It was speculated that the HvvCYP90A gene regulated the salt tolerance of A.thaliana by participating in the biosynthesis of BRs.This study provides reference for the mechanism of brassinosteroid regulated salt stress adaptation of H.vulgare var.nudum.
冯洋;赵艺云;段瑞君;袁怡玲;任慧珍;司建萍
青海大学 生态环境工程学院,西宁 810016青海大学 生态环境工程学院,西宁 810016青海大学 生态环境工程学院,西宁 810016青海大学 生态环境工程学院,西宁 810016青海大学 生态环境工程学院,西宁 810016青海大学 生态环境工程学院,西宁 810016
农业科技
青稞油菜素内酯CYP90A生物合成抗盐性
Hordeum vulgare var.nudumBrassinosteroidsCYP90ABiosynthesisSalt tolerance
《农业生物技术学报》 2026 (6)
1141-1152,12
青海省科技厅应用基础研究项目(2022-ZJ-948Q)
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