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Bibliographic Details
Main Authors: Huang, Delai, de Mello, Pietro L H, Liu, Tiffany, Liu, Yu, Kapadia, Emaan H, Liang, Yipeng, Lu, Jianguo, Corbo, Joseph C, Parichy, David M
Format: Artículo científico
Language:en
Published: bioRxiv : the preprint server for biology 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/41415391/
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Table of Contents:
  • Graded BMP signals modulate yellow and red color in fishes impacting adult pigment pattern and behavior. Huang, Delai de Mello, Pietro L H Liu, Tiffany Liu, Yu Kapadia, Emaan H Liang, Yipeng Lu, Jianguo Corbo, Joseph C Parichy, David M Among the most interesting adult traits are those with roles in animal communication. Yet developmental mechanisms by which genes drive cell behaviors in building the final forms of such traits are rarely known. In this context, pigmentation is useful because colors and patterns often provide signals in mate choice, predation avoidance and other behaviors and pigmentation is unusually accessible to observation and manipulation. Here we focus on some of the most prominent signaling colors-red, orange and yellow-and show how BMP signaling at the cellular level allows for a very different kind of signal at the organismal level. Using pearl danio, , we find that spatially and temporally graded BMP signals promote development of yellow/orange xanthophores over red erythrophores in the fin of this species and a distantly related minnow, , and that conserved mechanisms, involving BMP co-receptor Rgmb, regulate differentiation of other pigment cell types in corresponding locations of zebrafish, . We further use mutants of with more red or more yellow cells than wild-type to demonstrate female responsiveness to carotenoid-based color differences between males in shoaling preference assays, and we show the existence of polygenic standing variation for this pigmentary trait. Our findings illustrate a chain of function spanning hierarchical levels and provide a deeper understanding of pigmentary form and function and its evolution.