首页|期刊导航|昆虫学报|中华按蚊保幼激素环氧水解酶基因AsJHEH的克隆、表达模式及功能分析

中华按蚊保幼激素环氧水解酶基因AsJHEH的克隆、表达模式及功能分析OA

Cloning,expression profiling and functional analysis of the juvenile hormone epoxide hydrolase gene AsJHEH in Anopheles sinensis(Diptera:Culicidae)

中文摘要英文摘要

[目的]保幼激素环氧水解酶(juvenile hormone epoxide hydrolase,JHEH)作为保幼激素代谢通路的关键酶,在昆虫生长发育和生殖调控中起着重要的作用.中华按蚊Anopheles sinensis是疟疾等重要疾病的主要传播媒介,目前对于其JHEH基因在中华按蚊中的作用尚不清楚.本研究旨在解析中华按蚊JHEH的分子特性和基因表达模式,探究JHEH在中华按蚊生殖中的作用.[方法]基于中华按蚊转录组和基因组数据,利用PCR技术扩增中华按蚊AsJHEH的cDNA序列;通过生物信息学工具解析预测AsJHEH的理化特性和结构特征,使用MAGE11.0构建系统进化树;利用RT-qPCR检测AsJHEH在中华按蚊不同发育阶段(卵、1-4龄幼虫、雌蛹、雄蛹和雌雄成虫;化蛹后0,10,20和30 h,末期雌蛹以及羽化后0,6,12,24,36,48,60和72 h的雌成虫)、雌雄成虫不同组织(头、胸和腹)、雌成虫不同组织(中肠、马氏管、脂肪体、卵巢和体壁)中的表达量;构建pET32a-AsJHEH原核表达载体,诱导蛋白表达并纯化重组蛋白,制备AsJHEH多克隆抗体;向中华按蚊末期雌蛹注射dsAsJHEH进行RNAi后通过RT-qPCR和Western blotting检测基因沉默效率,并观测中华按蚊成虫羽化率、卵巢发育和单雌产卵量以及羽化后吸血24和48 h成虫中AsVg的表达量.[结果]成功克隆获得中华按蚊AsJHEH cDNA序列(GenBank登录号:PV466834),长为1 389 bp,编码462个氨基酸,编码蛋白质的预测分子质量为53.02 kD,等电点(isoelectric point,pI)为6.20.AsJHEH含有保守的结构基序,包括催化三联体(Asp234-Glu411-His438)、氧离子孔(Tyr306和Tyr81)以及XWG和HGXP基序.AsJHEH与其他蚊科昆虫JHEH的亲缘关系最近.时空表达模式发现,AsJHEH在中华按蚊各个发育阶段和成虫组织中均有表达,在2龄幼虫中表达量最高,是雌成虫中表达量的888.98倍;在雄成虫头部中高表达,表达量为雌成虫卵巢中表达量的1 198.54倍.通过原核表达系统成功制备了 AsJHEH重组蛋白,并获得多克隆抗体效价为1∶128 000.与注射dsEGFP的对照组比较,AsJHEHRNAi后,AsJHEH在中华按蚊mRNA水平和蛋白水平的表达量均显著下降,中华按蚊羽化率下降了 26.67%,同时卵巢发育异常,羽化后吸血48 h成虫中AsVg的表达量上调了 1.8倍,单雌产卵量降低了 52.23%,且所产的卵长度增加了 0.2倍并丧失了孵化能力.[结论]本研究首次揭示了 AsJHEH在中华按蚊生长发育和生殖调控中具有关键作用,不仅为基于保幼激素降解通路的中华按蚊防治奠定了理论基础,更为研发基于JH代谢的蚊虫生物防治策略提供了潜在分子靶点,具有重要的理论意义与实践价值.

[Aim]Juvenile hormone epoxide hydrolase(JHEH)is a key enzyme in the juvenile hormone(JH)metabolic pathway,playing a crucial role in insect growth,development and reproductive regulation.Anopheles sinensis,a major vector of malaria,has not been well-studied regarding the function of its JHEH gene.This study aims to characterize the molecular properties and gene expression patterns of JHEH in An.sinensis,and to explore the role of JHEH in the reproduction of An.sinensis.[Methods]Based on the transcriptomic and genomic data of An.sinensis,the cDNA sequence of AsJHEH was amplified using PCR.Bioinformatics tools were employed to predict the physicochemical properties and structural features of AsJHEH,and a phylogenetic tree was constructed using MEGA11.0.The expression levels of AsJHEH in different developmental stages of An.sinensis(eggs,1st-4th instar larvae,female pupae,male pupae,and female and male adults,0,10,20 and 30 h after pupation,late female pupae,as well as female adults at 0,6,12,24,36,48,60 and 72 h after eclosion),different female and male adult tissues(head,thorax and abdomen),and different tissues of female adults(midgut,Malpighian tubules,fat body,ovaries and integument)were detected using RT-qPCR.The pET32a-AsJHEH prokaryotic expression vector was constructed to induce protein expression and purify the recombinant protein,followed by the preparation of AsJHEH polyclonal antibody.RNAi was performed by injecting dsAsJHEH into the late female pupae of An.sinensis.The gene silencing efficiency was verified by RT-qPCR and Western blotting,and the eclosion rate,ovarian development,number of eggs laid per female adult of An.sinensis and the expression levels of AsVg in eclosed adults at 24 and 48 h post blood-feeding were observed and determined.[Results]The cDNA sequence of AsJHEH(GenBank accession no.:PV466834)of An.sinensis was successfully cloned and obtained.It was 1 389 bp in length,encoding 462 amino acids.The predicted molecular weight and isoelectric point(pI)of the encoded protein were 53.02 kD and 6.20,respectively.AsJHEH contained conserved structural motifs,including a catalytic triad(Asp234-Glu411-His438),an oxyanion hole(Tyr306 and Tyr381),and the XWG and HGXP motifs.AsJHEH was most closely related to JHEHs from other Culicidae species.Spatio-temporal expression patterns revealed that AsJHEH was expressed in all developmental stages and adult tissues of An.sinensis,with the highest expression level in the 2nd instar larvae(888.98-fold as high as that in adult females)and male adult head(1 198.54-fold as high as that in the ovary of female adult).The recombinant AsJHEH was successfully prepared by prokaryotic expression system,yielding polyclonal antibody with a titer of 1∶128 000.After RNAi of AsJHEH,the expression levels of AsJHEH at the mRNA and protein levels in An.sinensis were significantly reduced as compared to those in the control group injected with dsEGFP.RNAi of AsJHEH led to a 26.67%decrease in eclosion rate,abnormal ovarian development,a 1.8-fold upregulation of AsVg expression level in eclosed adults at 48 h post blood-feeding,a 52.23%reduction in the number of eggs laid per female,and the production of elongated eggs(0.2-fold longer eggs)that failed to hatch compared to the control group injected with dsEGFP.[Conclusion]This study elucidates the critical role of AsJHEH in the growth,development and reproductive regulation in An.sinensis for the first time,not only laying a theoretical foundation for controlling An.sinensis through the JH degradation pathway but also supplying potential molecular targets for JH metabolism-based biocontrol strategies,which has important theoretical significance and practical value.

幸晓清;李泉润;陈斌;司风玲

重庆师范大学生命科学学院昆虫与分子生物学研究所,媒介生物控制和利用重庆市重点实验室,重庆 401331重庆师范大学生命科学学院昆虫与分子生物学研究所,媒介生物控制和利用重庆市重点实验室,重庆 401331重庆师范大学生命科学学院昆虫与分子生物学研究所,媒介生物控制和利用重庆市重点实验室,重庆 401331重庆师范大学生命科学学院昆虫与分子生物学研究所,媒介生物控制和利用重庆市重点实验室,重庆 401331

生物科学

中华按蚊保幼激素环氧水解酶基因克隆表达模式RNA干扰生殖调控

Anopheles sinensisjuvenile hormone epoxide hydrolase(JHEH)gene cloningexpression patternRNA interferencereproductive regulation

《昆虫学报》 2026 (2)

178-189,12

重庆市教委科学技术委员会青年项目(KJQN202000535)重庆师范大学基金项目(20XLB016)

10.16380/j.kcxb.2026.02.003

评论