High-throughput genotyping of a full voltage-gated sodium channel gene via genomic DNA using target capture sequencing and analytical pipeline MoNaS to discover novel insecticide resistance mutations

Kentaro Itokawa; Tsuyoshi Sekizuka; Yoshihide Maekawa; Koji Yatsu; Osamu Komagata; Masaaki Sugiura; Tomonori Sasaki; Takashi Tomita; Makoto Kuroda; Kyoko Sawabe; Shinji Kasai

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High-throughput genotyping of a full voltage-gated sodium channel gene via genomic DNA using target capture sequencing and analytical pipeline MoNaS to discover novel insecticide resistance mutations

机译：使用靶标捕获测序和分析管线MoNaS通过基因组DNA对全电压门控钠通道基因进行高通量基因分型，以发现新型的杀虫剂抗性突变

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The Voltage Gated Sodium Channel (VGSC) in insect is targeted by pyrethroid insecticides and genetic variations in the protein are known to confer pyrethroid resistance. Since the VGSC gene in genome consists of many exons and long introns, there is no simple method to genotype whole of coding regions from the genomic DNA of insect. Here, we designed hybridization capture probe set to concentrate VGSC coding exons in NGS library from individual genomic DNA of the arbovirus vector mosquito Aedes albopictus. The probe set we designed was able to capture VGSC exons not only from A. albopictus genomic DNA but also from genomic DNA of two other mosquito species belonging to the same subfamily only with slight decrease of efficiency. The technology will allow unbiased analysis of the VGSC gene in multiple mosquito species with relatively low sequencing cost and enhance discovery of new resistance mutations.

机译：拟除虫菊酯类杀虫剂可靶向昆虫中的电压门控钠通道（VGSC），并且已知蛋白质中的遗传变异可赋予拟除虫菊酯抗性。由于基因组中的VGSC基因由许多外显子和长内含子组成，因此没有简单的方法可以从昆虫的基因组DNA中对整个编码区进行基因分型。在这里，我们设计了杂交捕获探针组，以从虫媒病毒蚊子伊蚊的单个基因组DNA浓缩NGS库中的VGSC编码外显子。我们设计的探针组不仅能够从白纹线虫基因组DNA捕获VGSC外显子，而且还能从属于同一亚科的其他两个蚊子的基因组DNA捕获VGSC外显子，但效率略有下降。该技术将允许以相对较低的测序成本对多种蚊子中的VGSC基因进行无偏分析，并增强对新抗性突变的发现。

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《PLOS Neglected Tropical Diseases》 |2019年第11期|共17页
作者
Kentaro Itokawa; Tsuyoshi Sekizuka; Yoshihide Maekawa; Koji Yatsu; Osamu Komagata; Masaaki Sugiura; Tomonori Sasaki; Takashi Tomita; Makoto Kuroda; Kyoko Sawabe; Shinji Kasai;
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中图分类传染病;
关键词
Invertebrate genomicsGenome analysisGenomic library constructionInsecticidesGenome complexityGenomic medicineGenomicsSubstitution mutation;

机译：无脊椎动物基因组学基因组分析基因组文库的构建杀虫剂基因组复杂性基因组医学基因组学替代突变;

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专利

1. Detection of knockdown resistance mutations in Anopheles sacharovi (Diptera : Culicidae) and genetic distance with Anopheles gambiae (Diptera : Culicidae) using cDNA sequencing of the voltage-gated sodium channel gene [J] . Luleyap HU, Alptekin D, Kasap H, Journal of Medical Entomology . 2002,第6期

机译：使用电压门控钠通道基因的cDNA测序检测sacharovi（Diptera：Culicidae）的敲低抗性突变和冈比亚按蚊（Diptera：Culicidae）的遗传距离
2. Polymorphism of intron-1 in the voltage-gated sodium channel gene of Anopheles gambiae s.s. populations from Cameroon with emphasis on insecticide knockdown resistance mutations [J] . Etang J, Vicente JL, Nwane P, Molecular ecology . 2009,第14期

机译：冈比亚按蚊电压门控钠通道基因中内含子1的多态性。喀麦隆的主要种群，着重于杀虫剂抗击性突变
3. First detection of multiple knockdown resistance (kdr)-like mutations in voltage-gated sodium channel using three new genotyping methods in Anopheles sinensis from Guangxi Province, China. [J] . Tan W. L., Li C. X., Wang Z. M., Journal of Medical Entomology . 2012,第5期

机译：利用三种新的基因分型方法，在中国广西省中华按蚊中首次检测到电压门控钠通道中的多个敲低抗性（kdr）样突变。
4. The diversity of kdr allele mutation, and resistance detection in the voltage-gated sodium channel of Culex pipiens pallens from Shandong Province, China [C] . Peng Cheng, Hongmei Liu, Xiaodan Huang, International Conference on Human Health and Medical Engineering. . 2014

机译：中国山东省山东省Culex pipiens Pallens电压门控钠通道的kdr等位基因突变和抗性检测的多样性
5. Resistance to pyrethroid insecticides in Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae): Bioassay validation, voltage-gated sodium channel mutations and CYP6B overexpression analysis. [D] . Hopkins, Bradley Wayne. 2010

机译：对Helicoverpa zea（Boddie）（鳞翅目：夜蛾科）中对拟除虫菊酯类杀虫剂的抗性：生物测定验证，电压门控钠通道突变和CYP6B过表达分析。
6. High-throughput genotyping of a full voltage-gated sodium channel gene via genomic DNA using target capture sequencing and analytical pipeline MoNaS to discover novel insecticide resistance mutations [O] . Kentaro Itokawa, Tsuyoshi Sekizuka, Yoshihide Maekawa, 2019

机译：使用靶标捕获测序和MoNaS分析管线通过基因组DNA对全电压门控钠通道基因进行高通量基因分型以发现新型的杀虫剂抗性突变
7. High-throughput genotyping of a full voltage-gated sodium channel gene via genomic DNA using target capture sequencing and analytical pipeline MoNaS to discover novel insecticide resistance mutations [O] . Kentaro Itokawa, Koji Yatsu, Tsuyoshi Sekizuka, 2019

机译：使用靶捕获测序和分析管线MONA的基因组DNA通过基因组DNA进行全电压门控钠通道基因的高通量基因分型，以发现新型杀虫剂抗性突变
8. New Sieving Matrix for DNA Sequencing, Genotyping and Mutation Detection and High-Throughput Genotyping with a 96-Capillary Array System [R] . Gao, D. 1999

机译：使用96-毛细管阵列系统进行DNa测序，基因分型和突变检测以及高通量基因分型的新筛选矩阵

High-throughput genotyping of a full voltage-gated sodium channel gene via genomic DNA using target capture sequencing and analytical pipeline MoNaS to discover novel insecticide resistance mutations

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