中国媒介生物学及控制杂志 ›› 2020, Vol. 31 ›› Issue (1): 7-11.DOI: 10.11853/j.issn.1003.8280.2020.01.002

• 论著 • 上一篇    下一篇

云南省景洪市2018-2019年白纹伊蚊击倒抗性基因型分布研究

朱彩英1, 赵春春1, 伦辛畅1, 朱进2, 李洪斌2, 姜进勇3, 闫冬明1, 宋秀平1, 王君1, 孟凤霞1   

  1. 1 中国疾病预防控制中心传染病预防控制所媒介生物控制室, 传染病预防控制国家重点实验室, WHO媒介生物监测与管理合作中心, 北京 102206;
    2 西双版纳傣族自治州疾病预防控制中心, 云南 西双版纳 666100;
    3 云南省寄生虫病防治所, 云南 普洱 665099
  • 收稿日期:2019-08-30 出版日期:2020-02-20 发布日期:2020-02-20
  • 通讯作者: 孟凤霞,Email:mengfengxia@icdc.cn
  • 作者简介:朱彩英,女,在读硕士,主要从事蚊虫抗性分子监测研究,Email:zhucaiying_ivy@163.com
  • 基金资助:
    国家科技重大专项(2017ZX10303404002005,2018ZX10101002-002)

Distribution of knockdown resistance genotypes in Aedes albopictus in Jinghong, Yunnan province, China, 2018-2019

ZHU Cai-ying1, ZHAO Chun-chun1, LUN Xin-chang1, ZHU Jin2, LI Hong-bin2, JIANG Jin-yong3, YAN Dong-ming1, SONG Xiu-ping1, WANG Jun1, MENG Feng-xia1   

  1. 1 Key Laboratory of Infectious Disease Prevention and Control, National Institute for Communicable Disease Control and Prevention, Chinese Center for Disease Control and Prevention, WHO Collaborating Centre for Vector Surveillance and Management, Beijing 102206, China;
    2 Xishuangbanna Dai Autonomous Prefecture Center for Disease Control and Prevention;
    3 Yunnan Institute of Parasitic Diseases
  • Received:2019-08-30 Online:2020-02-20 Published:2020-02-20
  • Supported by:
    Supported by the National Science and Technology Major Project of China (No. 2017ZX10303404002005, 2018ZX10101002-002)

摘要: 目的 检测云南省景洪市登革热媒介白纹伊蚊现场种群的击倒抗性(kdr)基因在不同区域的基因型及分布特点,以了解其抗药性水平,为白纹伊蚊科学防控提供依据。方法 采集白纹伊蚊成蚊,经形态学方法鉴定后,用无水乙醇浸泡,并于-20℃冻存备用。提取单只蚊虫的DNA,PCR扩增神经细胞膜上电压门控钠离子通道(VGSC)基因部分片段,测序后分析VGSC基因单位点及多位点联合突变情况。结果 2018年9月和2019年7月在景洪市东、西、南、北、中5个方位共采集白纹伊蚊160只,结果显示,其VGSC基因V1016、I1532及F1534位点均存在突变。V1016位点有2种等位基因,即野生型GTA/V(239/74.69%)和突变型GGA/G(81/25.31%);3种基因型,即野生型纯合子V/V(91/56.88%)、野生/突变型杂合子V/G(58/36.25%)和突变型纯合子G/G(11/6.88%)。I1532位点有2种等位基因,即野生型ACC/I(309/96.56%)和突变型ATC/T(11/3.44%);2种基因型,即野生型纯合子I/I(149/93.13%)和野生/突变型杂合子I/T(11/6.87%)。F1534位点有4种等位基因,即野生型TTC/F(92/28.75%)、突变型TCC/S(221/69.06%)、TGC/C(6/1.88%)和TTG/L(1/0.31%);5种基因型分别为野生型纯合子F/F(10/6.25%)、野生/突变型杂合子F/S(69/43.13%)和F/L(1/0.63%),突变型纯合子S/S(77/48.13%)和C/C(3/1.88%)。结论 景洪市kdr基因突变频率较高,且近年来呈现高水平、多样化发展趋势。提示应密切关注当地蚊虫抗药性水平,从而指导杀虫剂科学合理地使用。

关键词: 白纹伊蚊, 抗药性, 击倒抗性基因, 基因突变, 景洪市

Abstract: Objective To investigate knockdown resistance (kdr) genotypes and their distribution in the field populations of the dengue vector Aedes albopictus in different areas of Jinghong, Yunnan province, China, and understand their insecticide resistance levels, and to provide a basis for scientific control of Ae. albopictus. Methods Collected adults of Ae. albopictus were identified by morphology, and then soaked in anhydrous ethanol and stored at -20℃. DNA was extracted from each mosquito, and PCR was used to amplify the partial fragment of the voltage-gated sodium channel (VGSC) on the nerve cell membrane. Then sequencing was performed to analyze single or multiple point mutations. Results A total of 160 Ae. albopictus mosquitoes were collected from the east, south, west, north, and middle of Jinghong in September 2018 and July 2019. Mutations were detected at the V1016, I1532, and F1534 loci of the VGSC gene. There were two alleles at the V1016 locus, namely wild-type GTA/V (239/74.69%) and mutant GGA/G (81/25.31%); three genotypes, i.e., the wild-type homozygote V/V (91/56.88%), wild/mutant heterozygote V/G (58/36.25%), and mutant homozygote G/G (11/6.88%). There were two alleles at the I1532 locus, namely wild-type ACC/I (309/96.56%) and mutant ATC/T (11/3.44%); two genotypes, i.e., the wild-type homozygote I/I (149/93.13%) and wild/mutant heterozygote I/T (11/6.87%). There were four alleles at the F1534 locus, namely wild-type TTC/F (92/28.75%), mutant TCC/S (221/69.06%), mutant TGC/C (6/1.88%), and mutant TTG/L (1/0.31%); five genotypes, i.e., the wild-type homozygote F/F (10/6.25%), wild/mutant heterozygotes F/S (69/43.13%) and F/L (1/0.63%), and mutant homozygotes S/S (77/48.13%) and C/C (3/1.88%). Conclusion The kdr gene mutation rate is high in Ae. albopictus in Jinghong, and shows a trend towards a high level and diversified development. This suggests that close attention should be paid to the insecticide resistance level, so as to guide scientific and rational use of insecticides.

Key words: Aedes albopictus, Insecticide resistance, Knockdown resistance gene, Gene mutation, Jinghong

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