Systems genetic analysis of inversion polymorphisms in the malaria mosquito
            <i>Anopheles gambiae</i>

Cheng, Changde; Tan, John C.; Hahn, Matthew W.; Besansky, Nora J.

doi:10.1073/pnas.1806760115

Cited by 51 publications

(64 citation statements)

References 91 publications

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“…Of these 44 genes, 35 showed significant differences in expression between arrangements of In(2La). This fraction of differentially expressed genes with significant SNPs, 79.5% (35/44), is much higher than the overall fraction of differentially expressed genes within In(2La) between arrangements (~60%; Cheng et al 2018). Two of our top-ranking candidate genes have presumed roles in response to environmental stimulus.…”

Section: Association Mapping Within the 2la Inversionmentioning

confidence: 79%

“…Most significant SNPs were found in non-coding regions: we found only four synonymous variants among our set of significant sites, and no nonsynonymous variants. Previous studies have found many differences in transcription between inversion arrangements at In(2La) (Cassone et al 2011;Cheng et al 2018), allowing us to ask whether the same genes containing significant SNPs also showed evidence for differential expression. We crossreferenced expression profiles from Cheng et al (2018) with our list of 57 candidate genes and found data for 44 of them.…”

Section: Association Mapping Within the 2la Inversionmentioning

confidence: 99%

“…This hypothesis has been supported by physiological testing in laboratory colonies (Fouet et al 2012;Gray et al 2009;Rocca et al 2009). However, despite transcriptional profiling in the laboratory (Cassone et al 2011;Cheng et al 2018) and genome resequencing along a cline (Cheng et al 2012), the mechanistic basis of this presumably adaptive advantage remains elusive.…”

Section: Introductionmentioning

confidence: 99%

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Association mapping desiccation resistance within chromosomal inversions in the African malaria vectorAnopheles gambiae

et al. 2018

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Inversion polymorphisms are responsible for many ecologically important phenotypes, and are often found under balancing selection. However, the same features that ensure their large role in local adaptation-especially reduced recombination between alternate arrangements-mean that uncovering the precise loci within inversions that control these phenotypes is unachievable using standard mapping approaches. Here we take advantage of long-term balancing selection on a pair of inversions in the mosquito Anopheles gambiae to map desiccation tolerance via pool-GWAS.Two polymorphic inversions on chromosome 2 of this species (denoted 2La and 2Rb) are associated with arid and hot conditions in Africa, and are maintained in spatially and temporally heterogeneous environments. After measuring thousands of wild-caught individuals for survival under desiccation stress, we used phenotypically extreme individuals homozygous for alternative arrangements at the 2La inversion to construct pools for whole-genome sequencing. Genome-wide association mapping using these pools revealed dozens of significant SNPs within both 2La and 2Rb, many of which neighbored genes controlling ion channels or related functions. Our results ¶ Author Contributions: DA, MWH and NJB designed the research; DA led the phenotypic analysis, including field collections, desiccation testing, survivorship and body mass determination, molecular karyotyping, species delimitation, and modeling to select phenotypically extreme mosquitoes for Pool-Seq, with assistance from MC and CF and logistical support from IM, CC, and NJB; SZ led the computational analysis including read mapping, SNP calling, and association mapping, supported by MWH. SZ, DA, MWH and NJB wrote the paper. point to the promise of similar approaches in systems with inversions maintained by balancing selection, and provide a list of candidate genes underlying the specific phenotypes controlled by the two inversions studied here.

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Section: Association Mapping Within the 2la Inversionmentioning

confidence: 79%

Section: Association Mapping Within the 2la Inversionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Association mapping desiccation resistance within chromosomal inversions in the African malaria vectorAnopheles gambiae

et al. 2018

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“…It has been recently implicated in nutritional homeostasis in Drosophila [54] and is known to interact with the TOR pathway [55], which has been identified as a target of ecological adaptation in Drosophila [56, 57] and An. gambiae [58]. The sweep appears largely confined to island individuals in the LVB, but the cluster of haplotypes also includes those from Gabon, Burkina Faso, and Kenya.…”

Section: Discussionmentioning

confidence: 99%

Assessing connectivity despite high diversity in island populations of a malaria mosquito

Bergey

Lukindu

Wiltshire

et al. 2018

Preprint

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Documenting isolation is notoriously difficult for species with vast polymorphic populations. High proportions of shared variation impede estimation of connectivity, even despite leveraging information from many genetic markers. We overcome these impediments by combining classical analysis of neutral variation with assays of the structure of selected variation, demonstrated using populations of the principal African malaria vector Anopheles gambiae. Accurate estimation of mosquito migration is crucial for efforts to combat malaria. Modeling and cage experiments suggest that mosquito gene drive systems will enable malaria eradication, but establishing safety and efficacy requires identification of isolated populations in which to conduct field-testing. We assess Lake Victoria islands as candidate sites, finding one island 30 kilometers offshore is as differentiated from mainland samples as populations from across the continent. Collectively, our results suggest sufficient contemporary isolation of these islands to warrant consideration as field-testing locations and illustrate shared adaptive variation as a useful proxy for connectivity in highly polymorphic species.

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“…Drosophila species has found chromosomal inversion structure to have little effect on gene expression patterns (Huang et al 2015;Fuller et al 2016;Lavington and Kern 2017;Said et al 2018;Cheng et al 2018) . Our observation that somatic pairing is disrupted only partially and only in the relatively small regions immediately surrounding inversion breakpoints is consistent with these observations and suggests that dipteran chromatin structures are particularly resilient to changes imposed by genome structure polymorphism.…”

Section: Recent Work In a Gambiae Andmentioning

confidence: 99%

Fine-mapping complex inversion breakpoints and investigating somatic pairing in theAnopheles gambiaespecies complex using proximity-ligation sequencing

Corbett-Detig

Said

Calzetta

et al. 2019

Preprint

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Chromosomal inversions are fundamental drivers of genome evolution. In the main afro-tropical malaria vector species, belonging to the Anopheles gambiae species complex , inversions play an important role in local adaptation and have a rich history of cytological study. Despite the importance and ubiquity of some chromosomal inversions across the species complex, inversion breakpoints are often challenging to map molecularly due to the presence of large repetitive regions. Here, we develop an approach that uses Hi-C sequencing data to molecularly fine-map the breakpoints of inversions 2Rbc and 2Rd in A. coluzzii . We found that inversion breakpoints occur in large repetitive regions, and strikingly among three inversions analyzed, two breakpoints appear to be reused in two separate inversions. Additionally, we use heterozygous individuals to quantitatively investigate somatic pairing disruption in the regions immediately surrounding inversion breakpoints, and we find that pairing disruption is undetectable beyond approximately 250 Kb from the inversion breakpoints.

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Systems genetic analysis of inversion polymorphisms in the malaria mosquito Anopheles gambiae

Cited by 51 publications

References 91 publications

Association mapping desiccation resistance within chromosomal inversions in the African malaria vectorAnopheles gambiae

Association mapping desiccation resistance within chromosomal inversions in the African malaria vectorAnopheles gambiae

Assessing connectivity despite high diversity in island populations of a malaria mosquito

Fine-mapping complex inversion breakpoints and investigating somatic pairing in theAnopheles gambiaespecies complex using proximity-ligation sequencing

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