Distinct genetic origins of eumelanin levels and barring patterns in cichlid fishes

Author:

Brandon A. Allyson,Michael Cassia,Carmona Baez Aldo,Moore Emily C.,Ciccotto Patrick J.,Roberts Natalie B.,Roberts Reade B.,Powder Kara E.ORCID

Abstract

Pigment patterns are incredibly diverse across vertebrates and are shaped by multiple selective pressures from predator avoidance to mate choice. A common pattern across fishes, but for which we know little about the underlying mechanisms, is repeated melanic vertical bars. To understand the genetic factors that modify the level or pattern of vertical barring, we generated a genetic cross of 322 F2 hybrids between two cichlid species with distinct barring patterns, Aulonocara koningsi and Metriaclima mbenjii. We identify 48 significant quantitative trait loci that underlie a series of seven phenotypes related to the relative pigmentation intensity, and four traits related to patterning of the vertical bars. We find that genomic regions that generate variation in the level of eumelanin produced are largely independent of those that control the spacing of vertical bars. Candidate genes within these intervals include novel genes and those newly-associated with vertical bars, which could affect melanophore survival, fate decisions, pigment biosynthesis, and pigment distribution. Together, this work provides insights into the regulation of pigment diversity, with direct implications for an animal’s fitness and the speciation process.

Funder

Division of Integrative Organismal Systems

Foundation for the National Institutes of Health

Clemson University

Arnold and Mabel Beckman Foundation

Publisher

Public Library of Science (PLoS)

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