Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation

L M Blumer; V Burskaia; I Artiushin; J Saha; J Camacho Garcia; F Campuzano Jiménez; A Hooft van der Huysdynen; J Elkin; B Fischer; N Van Houtte; C Zhou; S Gresham; M Malinsky; T Linderoth; W Sawasawa; G Vernaz; I Bista; A Hickey; M Kucka; S Louzada; R Zatha; F Yang; B Rusuwa; M E Santos; Y F Chan; D A Joyce; A Böhne; E A Miska; M Ngochera; G F Turner; R Durbin; H Svardal

doi:10.1126/science.adr9961

Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation

L M Blumer
, V Burskaia
, I Artiushin
, J Saha
, J Camacho Garcia
, F Campuzano Jiménez
, A Hooft van der Huysdynen
, J Elkin
, B Fischer
, N Van Houtte
, C Zhou
, S Gresham
, M Malinsky
, T Linderoth
, W Sawasawa
, G Vernaz
, I Bista
, A Hickey
, M Kucka
, S Louzada

R Zatha, F Yang, B Rusuwa, M E Santos, Y F Chan, D A Joyce, A Böhne, E A Miska, M Ngochera, G F Turner, R Durbin, H Svardal

School of Environmental & Natural Sciences

University of Cambridge
University of Antwerp
University of Bern
Michigan State University
Senckenberg Research Institute and Natural History Museum Frankfurt
LOEWE Centre for Translational Biodiversity Genomics (LOEWE-TBG), Frankfurt
Frankfurt am Main
Friedrich Miescher Laboratory of the Max Planck Society Tübingen
University of Malawi
Shandong University of Technology
Groningen Institute for Evolutionary Life Sciences (GELIFES)
University of Groningen
University of Hull
Leibniz Institute for the Analysis of Biodiversity Change (LIB)
Department of Fisheries Headquarters

Research output: Contribution to journal › Article › peer-review

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Abstract

Chromosomal inversions can contribute to adaptive speciation by linking coadapted alleles. By querying 1375 genomes of the species-rich Malawi cichlid fish radiation, we discovered five large inversions segregating in the benthic subradiation that each suppress recombination over more than half a chromosome. Two inversions were transferred from deepwater pelagic Diplotaxodon through admixture, whereas the others established early in the deep benthic clade. Introgression of haplotypes from lineages inside and outside the Malawi radiation coincided with bursts of species diversification. Inversions show evidence for transient sex linkage, and a notable excess of protein changing substitutions points toward selection on neurosensory, physiological, and reproductive genes. These results indicate that repeated interplay between depth adaptation and sex-specific selection on large inversions has been central to the evolution of this iconic system.

Original language	English
Pages (from-to)	eadr9961
Journal	Science
Volume	388
Issue number	6752
DOIs	https://doi.org/10.1126/science.adr9961
Publication status	Published - 12 Jun 2025

Keywords

Animals
Female
Male
Chromosome Inversion
Cichlids/classification
Genetic Introgression
Genetic Speciation
Haplotypes
Malawi
Recombination, Genetic
Sex Chromosomes/genetics
Sex Determination Processes/genetics
Polymorphism, Single Nucleotide

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10.1126/science.adr9961

Blumer 2025 Science author msAccepted author manuscript, 3.12 MB

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Blumer, L. M., Burskaia, V., Artiushin, I., Saha, J., Garcia, J. C., Jiménez, F. C., Hooft van der Huysdynen, A., Elkin, J., Fischer, B., Van Houtte, N., Zhou, C., Gresham, S., Malinsky, M., Linderoth, T., Sawasawa, W., Vernaz, G., Bista, I., Hickey, A., Kucka, M., ... Svardal, H. (2025). Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation. Science, 388(6752), eadr9961. https://doi.org/10.1126/science.adr9961

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title = "Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation",

abstract = "Chromosomal inversions can contribute to adaptive speciation by linking coadapted alleles. By querying 1375 genomes of the species-rich Malawi cichlid fish radiation, we discovered five large inversions segregating in the benthic subradiation that each suppress recombination over more than half a chromosome. Two inversions were transferred from deepwater pelagic Diplotaxodon through admixture, whereas the others established early in the deep benthic clade. Introgression of haplotypes from lineages inside and outside the Malawi radiation coincided with bursts of species diversification. Inversions show evidence for transient sex linkage, and a notable excess of protein changing substitutions points toward selection on neurosensory, physiological, and reproductive genes. These results indicate that repeated interplay between depth adaptation and sex-specific selection on large inversions has been central to the evolution of this iconic system.",

keywords = "Animals, Female, Male, Chromosome Inversion, Cichlids/classification, Genetic Introgression, Genetic Speciation, Haplotypes, Malawi, Recombination, Genetic, Sex Chromosomes/genetics, Sex Determination Processes/genetics, Polymorphism, Single Nucleotide",

author = "Blumer, \{L M\} and V Burskaia and I Artiushin and J Saha and Garcia, \{J Camacho\} and Jim{\'e}nez, \{F Campuzano\} and \{Hooft van der Huysdynen\}, A and J Elkin and B Fischer and \{Van Houtte\}, N and C Zhou and S Gresham and M Malinsky and T Linderoth and W Sawasawa and G Vernaz and I Bista and A Hickey and M Kucka and S Louzada and R Zatha and F Yang and B Rusuwa and Santos, \{M E\} and Chan, \{Y F\} and Joyce, \{D A\} and A B{\"o}hne and Miska, \{E A\} and M Ngochera and Turner, \{G F\} and R Durbin and H Svardal",

year = "2025",

month = jun,

day = "12",

doi = "10.1126/science.adr9961",

language = "English",

volume = "388",

pages = "eadr9961",

journal = "Science",

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publisher = "American Association for the Advancement of Science",

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Blumer, LM, Burskaia, V, Artiushin, I, Saha, J, Garcia, JC, Jiménez, FC, Hooft van der Huysdynen, A, Elkin, J, Fischer, B, Van Houtte, N, Zhou, C, Gresham, S, Malinsky, M, Linderoth, T, Sawasawa, W, Vernaz, G, Bista, I, Hickey, A, Kucka, M, Louzada, S, Zatha, R, Yang, F, Rusuwa, B, Santos, ME, Chan, YF, Joyce, DA, Böhne, A, Miska, EA, Ngochera, M, Turner, GF, Durbin, R & Svardal, H 2025, 'Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation', Science, vol. 388, no. 6752, pp. eadr9961. https://doi.org/10.1126/science.adr9961

TY - JOUR

T1 - Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation

AU - Blumer, L M

AU - Burskaia, V

AU - Artiushin, I

AU - Saha, J

AU - Garcia, J Camacho

AU - Jiménez, F Campuzano

AU - Hooft van der Huysdynen, A

AU - Elkin, J

AU - Fischer, B

AU - Van Houtte, N

AU - Zhou, C

AU - Gresham, S

AU - Malinsky, M

AU - Linderoth, T

AU - Sawasawa, W

AU - Vernaz, G

AU - Bista, I

AU - Hickey, A

AU - Kucka, M

AU - Louzada, S

AU - Zatha, R

AU - Yang, F

AU - Rusuwa, B

AU - Santos, M E

AU - Chan, Y F

AU - Joyce, D A

AU - Böhne, A

AU - Miska, E A

AU - Ngochera, M

AU - Turner, G F

AU - Durbin, R

AU - Svardal, H

PY - 2025/6/12

Y1 - 2025/6/12

N2 - Chromosomal inversions can contribute to adaptive speciation by linking coadapted alleles. By querying 1375 genomes of the species-rich Malawi cichlid fish radiation, we discovered five large inversions segregating in the benthic subradiation that each suppress recombination over more than half a chromosome. Two inversions were transferred from deepwater pelagic Diplotaxodon through admixture, whereas the others established early in the deep benthic clade. Introgression of haplotypes from lineages inside and outside the Malawi radiation coincided with bursts of species diversification. Inversions show evidence for transient sex linkage, and a notable excess of protein changing substitutions points toward selection on neurosensory, physiological, and reproductive genes. These results indicate that repeated interplay between depth adaptation and sex-specific selection on large inversions has been central to the evolution of this iconic system.

AB - Chromosomal inversions can contribute to adaptive speciation by linking coadapted alleles. By querying 1375 genomes of the species-rich Malawi cichlid fish radiation, we discovered five large inversions segregating in the benthic subradiation that each suppress recombination over more than half a chromosome. Two inversions were transferred from deepwater pelagic Diplotaxodon through admixture, whereas the others established early in the deep benthic clade. Introgression of haplotypes from lineages inside and outside the Malawi radiation coincided with bursts of species diversification. Inversions show evidence for transient sex linkage, and a notable excess of protein changing substitutions points toward selection on neurosensory, physiological, and reproductive genes. These results indicate that repeated interplay between depth adaptation and sex-specific selection on large inversions has been central to the evolution of this iconic system.

KW - Animals

KW - Female

KW - Male

KW - Chromosome Inversion

KW - Cichlids/classification

KW - Genetic Introgression

KW - Genetic Speciation

KW - Haplotypes

KW - Malawi

KW - Recombination, Genetic

KW - Sex Chromosomes/genetics

KW - Sex Determination Processes/genetics

KW - Polymorphism, Single Nucleotide

U2 - 10.1126/science.adr9961

DO - 10.1126/science.adr9961

M3 - Article

C2 - 40504893

SN - 0036-8075

VL - 388

SP - eadr9961

JO - Science

JF - Science

IS - 6752

ER -

Introgression dynamics of sex-linked chromosomal inversions shape the Malawi cichlid radiation

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Keywords

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