Molecular identification and genetic diversity of biting midges (Diptera: Ceratopogonidae) in the tropical environment on Hainan Island, China.

IF 0.8 4区医学 Q4 INFECTIOUS DISEASES Journal of Vector Borne Diseases Pub Date : 2024-07-07 DOI:10.4103/JVBD.JVBD_100_23

Yaj Lu, Jie Su, Shi Cheng, Yax Hu, Qianf Xia

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Abstract

Background objectives: Biting midges are hematophagous arthropods responsible for zoonotic infectious diseases and have a wide distribution in temperate and tropical latitudes of the world.

Methods: The genomic DNA of midge samples was extracted using the Chelex method and the ITS1gene was amplified by PCR to identify the midge species via BLAST. The sequence characteristics and the genetic diversity were analyzed using ClustalOmega, DnaSP, Arlequin, PopART, and TCS software tool. The validity of the ITS1 gene as a DNA barcode marker was evaluated using DAMBE. The phylogenetic relationship was established in the MEGA software. The ABGD web determined the species boundary and the SDT software visualized the pairwise sequence comparisons.

Results: A total of 39 midge samples possessed the range from 364 to 429 bp of the ITS1 sequences. The midge samples were identified as Culicoides imicola, Culicoides oxystoma, Culicoides peregrinus, Culicoides jacobsoni, Forcipomyia peregrinator, and Culicoides fulvus, respectively. The ITS1 sequences had 288 conserved sites (60.25%), 167 variable sites (34.94%), 141 parsimony-informative sites (29.50%), and 26 singleton sites (5.44%), with a considerable sequence variation with a high haplotype diversity. Populations in Lingao, Haikou, Tunchang were relatively independent, with a low level of gene flow. A separate population of Forcipomyia genus in Danzhou was observed.

Interpretation conclusion: The biting midges in Hainan, a tropical island, had abundant genetic diversity. Timely surveillance is a crucial control measure for the spread of midge-borne diseases.

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中国海南岛热带环境中咬蚊（双翅目：Ceratopogonidae）的分子鉴定和遗传多样性。

背景目标：咬蠓是一种食血节肢动物，是人畜共患传染病的罪魁祸首，广泛分布于世界温带和热带地区：方法：采用Chelex方法提取蠓样本的基因组DNA，并通过PCR扩增ITS1基因，通过BLAST鉴定蠓的种类。利用 ClustalOmega、DnaSP、Arlequin、PopART 和 TCS 软件工具分析了序列特征和遗传多样性。使用 DAMBE 评估了 ITS1 基因作为 DNA 条形码标记的有效性。在 MEGA 软件中建立了系统发生关系。ABGD 网络确定了物种边界，SDT 软件将成对序列比较可视化：共有 39 个蠓样本的 ITS1 序列范围在 364 至 429 bp 之间。这些蠓样本分别被鉴定为 Culicoides imicola、Culicoides oxystoma、Culicoides peregrinus、Culicoides jacobsoni、Forcipomyia peregrinator 和 Culicoides fulvus。ITS1序列有288个保守位点（60.25%）、167个可变位点（34.94%）、141个解析信息位点（29.50%）和26个单体位点（5.44%），序列变异较大，单体型多样性较高。临高、海口和屯昌的种群相对独立，基因流动水平较低。在儋州观察到一个独立的蝇属种群：海南作为热带岛屿，其咬蠓具有丰富的遗传多样性。及时监测是控制蠓媒疾病传播的关键措施。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Vector Borne Diseases INFECTIOUS DISEASES-PARASITOLOGY

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： National Institute of Malaria Research on behalf of Indian Council of Medical Research (ICMR) publishes the Journal of Vector Borne Diseases. This Journal was earlier published as the Indian Journal of Malariology, a peer reviewed and open access biomedical journal in the field of vector borne diseases. The Journal publishes review articles, original research articles, short research communications, case reports of prime importance, letters to the editor in the field of vector borne diseases and their control.