疟疾
载体(分子生物学)
按蚊
生物
校长(计算机安全)
人口
地理
计算机科学
遗传学
环境卫生
医学
计算机安全
免疫学
基因
重组DNA
作者
Jacob A. Tennessen,Raphael Brosula,Estelle Chabanol,Sara A. Bickersmith,Angela M. Early,Margaret Laws,Katrina Kelley,María Eugenia Grillet,Dionicia Gamboa,Eric R. Lucas,Jean‐Bernard Duchemin,Martha L. Quiñones,Maria Anice Mureb Sallum,Eduardo Sterlino Bergo,Jorge E. Moreno,Sanjay C. Nagi,Nicholas Arisco,Mohini Sooklall,Reza Niles‐Robin,Márcia C. Castro
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2025-03-15
被引量:1
标识
DOI:10.1101/2025.03.13.643102
摘要
ABSTRACT Malaria in South America remains a serious public health problem. Anopheles ( Nyssorhynchus ) darlingi is the most important malaria vector across tropical Latin America. Vector-targeted disease control efforts require a thorough understanding of mosquito demographic and evolutionary patterns. We present and analyze whole genomes of 1094 A. darlingi (median depth 18x) from six South American countries. We observe deep geographic population structure, high genetic diversity including thirteen putative segregating inversions, and no evidence for cryptic sympatric taxa despite high interpopulation divergence. Strong signals of selection are plausibly driven by insecticides, especially on cytochrome P450 genes, one of which we validated experimentally. Our results will facilitate effective mosquito surveillance and control, while highlighting ongoing challenges that a diverse vector poses for malaria elimination in the western hemisphere.
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