Molecular Mechanism of Body Color Change in the Ecological Seedling Breeding Model of <i>Apostichopus japonicus</i>

Molecular Mechanism of Body Color Change in the Ecological Seedling Breeding Model of <i>Apostichopus japonicus</i>

The mismatch between the rapid expansion of breeding scale and outdated techniques has hindered the development of the sea cucumber (<i>A. japonicus</i>) industry. Our previous work revealed that ecological seedling breeding can produce red-colored <i>A. japonicus</i>, a phen...

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Bibliographic Details
Main Authors: Lingshu Han, Pengfei Hao, Haoran Xiao, Weiyan Li, Yichen Fan, Wanrong Tian, Ye Tian, Luo Wang, Yaqing Chang, Jun Ding
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Biology
Subjects:
body color
molecular mechanism
chromatic biomarkers
ecological breeding
sea cucumber
Online Access:https://www.mdpi.com/2079-7737/14/7/873
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Summary:The mismatch between the rapid expansion of breeding scale and outdated techniques has hindered the development of the sea cucumber (<i>A. japonicus</i>) industry. Our previous work revealed that ecological seedling breeding can produce red-colored <i>A. japonicus</i>, a phenotype not observed in traditional artificial breeding, where individuals are typically green. To investigate the molecular and genetic basis of this novel red coloration, we compared the growth conditions of red sea cucumbers and green sea cucumbers, as well as the differences in the pigment composition, gene expression and metabolites of their body walls. Red individuals showed higher body length and weight, and elevated levels of astaxanthin, lutein, canthaxanthin, and β-carotene in the body wall. Transcriptomic and metabolomic analyses identified differentially expressed genes and metabolites associated with pigmentation. In particular, <i>FMO2</i> and <i>WDR18</i>, involved in the cytochrome P450 drug metabolism pathway, were significantly upregulated in red individuals and are known to play roles in pigment biosynthesis and light signal perception. Key metabolites such as astaxanthin and fucoxanthin were implicated in body color formation. Moreover, genes in the arachidonic acid metabolism pathway were highly expressed, suggesting that dietary factors may contribute to pigment synthesis and accumulation. These findings provide novel insights into the mechanisms underlying body color variation in <i>A. japonicus</i> and offer potential for improved breeding strategies.
ISSN:2079-7737

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