首页|期刊导航|福建农业学报|苹果响应调节因子基因家族鉴定及其在盐碱胁迫下的表达分析

苹果响应调节因子基因家族鉴定及其在盐碱胁迫下的表达分析OA

Identification and Expressions under Saline-Alkali Stress of RR Family in Apple

中文摘要英文摘要

[目的]系统分析了苹果(Malus domestica Borkh.)响应调节因子(response regulator)基因家族成员的生物学信息及其在盐碱胁迫下的表达特性,为探明苹果耐盐碱胁迫反应提供参考.[方法]利用从 Pfam数据库下载的PF00643保守氨基酸序列在苹果基因组中检索苹果响应调节因子(Malus domestica Borkh.response regulater,MdRR)基因家族成员,利用 MEGA-X、TBtools和 MEME等软件对 MdRR基因家族成员进行理化性质、保守基序、基因结构、染色体定位、顺式作用元件和系统进化树等分析,利用RNA-seq测定MdRR基因在盐碱胁迫下的表达情况.[结果]共鉴定出 38个 MdRR基因家族成员,分别命名为 MdRR1~MdRR38.38个 MdRR的氨基酸数量为 138~774个;分子量为 15 874.61~85 191.72 Da;等电点为 4.62~9.14;不稳定系数为 34.77~80.77;脂肪系数为 58.75~109.42;平均亲水系数为-0.934~0.312;它们均由 α螺旋、延伸链、无规则卷曲和模糊状态组成,其中 α螺旋和无规则卷曲在每个成员中都占主导地位;顺式作用元件和 GO分析表明,MdRR在植物激素的刺激响应和信号转导、胁迫响应的调控中发挥重要作用;蛋白相互作用分析表明,MdRR可能通过与 HP、SnRK2、TFIIA、ETR2、HSD等多种蛋白的相互作用来调节植物抗性;当苹果幼苗受到盐碱胁迫时,叶片和根中分别有 13和 7个 MdRR基因呈先上升后下降的表达模式,分别有 11和 17个 MdRR基因呈先下降后上升的表达模式.[结论]鉴定出 38个 MdRR家族基因,并发现其大部分基因的表达受盐碱胁迫的影响,表明 MdRR基因在苹果盐碱胁迫响应中发挥重要作用,为进一步利用MdRR基因开展苹果耐盐碱分子机制研究和耐盐碱育种提供参考.

[Objective]Biological information and expressions under saline-alkali stress of the family members of response regulator gene(RR)in apple were investigated.[Method]Using the conserved sequence of PF00643 in genome of Malus hupehensis Rehd,members of the MdRR family were identified.Physiochemical properties,motifs,gene structure,chromosomal localization,cis-acting elements,and phylogenetic tree of the members were analyzed by MEGA-X,TBtools,and MEME.RNA-seq was employed to examine their expressions under saline-alkali stress.[Result]The 38 identified MdRRs were named as MdRR1-38 that contained 138-774 amino acids with molecular weights ranging 15 874.61-85 191.72 Da,isoelectric points 4.62-9.14,instability coefficients 34.77-80.77,fat coefficients 58.75-109.42,and average hydrophilicity coefficients-0.934-0.312.There were α-helices,extended chains,disordered coils,and amorphous regions in the structure which was dominant by α-helices and disordered coils in each member.As indicated by the cis-acting elements and GO analysis,MdRRs played crucial roles in the stimulus response and signal transduction of plant hormones,stress response,and growth and development regulations.They might interact with multiple proteins,such as AHP,SnRK2,TFIIA,ETR2,HSD,and others to regulate the plant resistance.Under saline-alkali stress,the expressions of 13 MdRRs in the leaves and 7 in the roots exhibited a pattern of initial rise followed by a decline,while those of 11 MdRRs in the leaves and 17 in the roots showed an opposite trend.[Conclusion]There were 38 MdRR family genes identified in apple.The expressions of most of them were affected by a saline-alkali treatment,indicating their close association with the stress response of the plant.

王新亮;朱红梅;郭冰

山东航空学院/山东省黄河三角洲生态环境重点实验室,山东 滨州 256603滨州市公用事业服务中心,山东 滨州 256600山东省住房和城乡建设发展研究院,山东 济南 250001

农业科技

苹果响应调节因子盐碱胁迫细胞分裂素基因表达

appleresponse regulatorsaline-alkali stresscytokiningene expression

《福建农业学报》 2026 (3)

307-316,10

滨州学院博士学位人员及具有硕士学位的高级职称人员科研启动项目(2019Y36)

10.19303/j.issn.1008-0384.2026.03.004

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