Communications Biology (Apr 2024)

Convergent gene losses and pseudogenizations in multiple lineages of stomachless fishes

  • Akira Kato,
  • Supriya Pipil,
  • Chihiro Ota,
  • Makoto Kusakabe,
  • Taro Watanabe,
  • Ayumi Nagashima,
  • An-Ping Chen,
  • Zinia Islam,
  • Naoko Hayashi,
  • Marty Kwok-Shing Wong,
  • Masayuki Komada,
  • Michael F. Romero,
  • Yoshio Takei

DOI
https://doi.org/10.1038/s42003-024-06103-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 18

Abstract

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Abstract The regressive evolution of independent lineages often results in convergent phenotypes. Several teleost groups display secondary loss of the stomach, and four gastric genes, atp4a, atp4b, pgc, and pga2 have been co-deleted in agastric (stomachless) fish. Analyses of genotypic convergence among agastric fishes showed that four genes, slc26a9, kcne2, cldn18a, and vsig1, were co-deleted or pseudogenized in most agastric fishes of the four major groups. kcne2 and vsig1 were also deleted or pseudogenized in the agastric monotreme echidna and platypus, respectively. In the stomachs of sticklebacks, these genes are expressed in gastric gland cells or surface epithelial cells. An ohnolog of cldn18 was retained in some agastric teleosts but exhibited an increased non-synonymous substitution when compared with gastric species. These results revealed novel convergent gene losses at multiple loci among the four major groups of agastric fish, as well as a single gene loss in the echidna and platypus.