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Auteurs principaux: Wei, Xiaohui, Peng, Wenzhu, Huang, Zekun, Yang, Bingye, Wu, Yiyu, Han, Minzhen, Wang, Yi, Peng, Bingling, Hu, Guosheng, Hong, Jiawei, Liu, Guijia, Nie, Linwei, Gan, Yang, Huang, Miaoqin, Luo, Xuan, You, Weiwei, Liu, Wen, Ke, Caihuan
Format: Artículo científico
Langue:en
Publié: Advanced science (Weinheim, Baden-Wurttemberg, Germany) 2026
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/41603158/
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author Wei, Xiaohui
Peng, Wenzhu
Huang, Zekun
Yang, Bingye
Wu, Yiyu
Han, Minzhen
Wang, Yi
Peng, Bingling
Hu, Guosheng
Hong, Jiawei
Liu, Guijia
Nie, Linwei
Gan, Yang
Huang, Miaoqin
Luo, Xuan
You, Weiwei
Liu, Wen
Ke, Caihuan
author_facet Wei, Xiaohui
Peng, Wenzhu
Huang, Zekun
Yang, Bingye
Wu, Yiyu
Han, Minzhen
Wang, Yi
Peng, Bingling
Hu, Guosheng
Hong, Jiawei
Liu, Guijia
Nie, Linwei
Gan, Yang
Huang, Miaoqin
Luo, Xuan
You, Weiwei
Liu, Wen
Ke, Caihuan
Wei, Xiaohui
Peng, Wenzhu
Huang, Zekun
Yang, Bingye
Wu, Yiyu
Han, Minzhen
Wang, Yi
Peng, Bingling
Hu, Guosheng
Hong, Jiawei
Liu, Guijia
Nie, Linwei
Gan, Yang
Huang, Miaoqin
Luo, Xuan
You, Weiwei
Liu, Wen
Ke, Caihuan
collection PubMed - marine biology
contents Genetic Control of Tissue Remodeling by a Non-Coding SNP in ITGA8 Explains Carotenoid-Based Color Polymorphism in Marine Mollusks. Wei, Xiaohui Peng, Wenzhu Huang, Zekun Yang, Bingye Wu, Yiyu Han, Minzhen Wang, Yi Peng, Bingling Hu, Guosheng Hong, Jiawei Liu, Guijia Nie, Linwei Gan, Yang Huang, Miaoqin Luo, Xuan You, Weiwei Liu, Wen Ke, Caihuan Animals Polymorphism, Single Nucleotide Carotenoids Pigmentation Genome-Wide Association Study Integrin alpha Chains Mollusca Alternative Splicing Biological color polymorphism represents a widespread form of phenotypic diversity in nature; however, the multi-scale regulatory mechanisms of carotenoid-based coloration, from genetic control to cell states and tissue architecture, remain poorly understood. Here, using the orange-muscle giant abalone (Haliotis gigantea) as a model, we demonstrate that a non-coding single nucleotide polymorphism (SNP) in the integrin subunit alpha 8 (ITGA8) gene induces alternative splicing, thereby promoting carotenoid-based coloration through the regulation of tissue remodeling processes, including cell state transitions and reconstruction of the physical microenvironment. Through chromosome-level genome assembly and genome-wide association studies (GWAS), we identified a SNP that disrupts the interaction between ITGA8 pre-mRNA and the splicing factor ILF2, leading to altered ITGA8 splicing. Multi-omics analyses and transmission electron microscopy reveal that these splicing changes promote carotenoid accumulation in abalone muscle by weakening cell adhesion and enlarging intercellular spaces. Functional validation supports the role of ITGA8 in regulating cell adhesion and carotenoid uptake. Our study uncovers a cross-scale mechanism by which genetic variation drives macroscopic phenotypic diversity in carotenoid-based color polymorphism through the regulation of cell state transitions and tissue remodeling. These findings provide novel insights into the genotype-phenotype relationship and advance our understanding of color diversity in multicellular organisms.
format Artículo científico
id pubmed_41603158
institution PubMed
language en
publishDate 2026
publisher Advanced science (Weinheim, Baden-Wurttemberg, Germany)
record_format pubmed
spellingShingle Genetic Control of Tissue Remodeling by a Non-Coding SNP in ITGA8 Explains Carotenoid-Based Color Polymorphism in Marine Mollusks.
Wei, Xiaohui
Peng, Wenzhu
Huang, Zekun
Yang, Bingye
Wu, Yiyu
Han, Minzhen
Wang, Yi
Peng, Bingling
Hu, Guosheng
Hong, Jiawei
Liu, Guijia
Nie, Linwei
Gan, Yang
Huang, Miaoqin
Luo, Xuan
You, Weiwei
Liu, Wen
Ke, Caihuan
Animals
Polymorphism, Single Nucleotide
Carotenoids
Pigmentation
Genome-Wide Association Study
Integrin alpha Chains
Mollusca
Alternative Splicing
Genetic Control of Tissue Remodeling by a Non-Coding SNP in ITGA8 Explains Carotenoid-Based Color Polymorphism in Marine Mollusks. Wei, Xiaohui Peng, Wenzhu Huang, Zekun Yang, Bingye Wu, Yiyu Han, Minzhen Wang, Yi Peng, Bingling Hu, Guosheng Hong, Jiawei Liu, Guijia Nie, Linwei Gan, Yang Huang, Miaoqin Luo, Xuan You, Weiwei Liu, Wen Ke, Caihuan Animals Polymorphism, Single Nucleotide Carotenoids Pigmentation Genome-Wide Association Study Integrin alpha Chains Mollusca Alternative Splicing Biological color polymorphism represents a widespread form of phenotypic diversity in nature; however, the multi-scale regulatory mechanisms of carotenoid-based coloration, from genetic control to cell states and tissue architecture, remain poorly understood. Here, using the orange-muscle giant abalone (Haliotis gigantea) as a model, we demonstrate that a non-coding single nucleotide polymorphism (SNP) in the integrin subunit alpha 8 (ITGA8) gene induces alternative splicing, thereby promoting carotenoid-based coloration through the regulation of tissue remodeling processes, including cell state transitions and reconstruction of the physical microenvironment. Through chromosome-level genome assembly and genome-wide association studies (GWAS), we identified a SNP that disrupts the interaction between ITGA8 pre-mRNA and the splicing factor ILF2, leading to altered ITGA8 splicing. Multi-omics analyses and transmission electron microscopy reveal that these splicing changes promote carotenoid accumulation in abalone muscle by weakening cell adhesion and enlarging intercellular spaces. Functional validation supports the role of ITGA8 in regulating cell adhesion and carotenoid uptake. Our study uncovers a cross-scale mechanism by which genetic variation drives macroscopic phenotypic diversity in carotenoid-based color polymorphism through the regulation of cell state transitions and tissue remodeling. These findings provide novel insights into the genotype-phenotype relationship and advance our understanding of color diversity in multicellular organisms.
title Genetic Control of Tissue Remodeling by a Non-Coding SNP in ITGA8 Explains Carotenoid-Based Color Polymorphism in Marine Mollusks.
topic Animals
Polymorphism, Single Nucleotide
Carotenoids
Pigmentation
Genome-Wide Association Study
Integrin alpha Chains
Mollusca
Alternative Splicing
url https://pubmed.ncbi.nlm.nih.gov/41603158/