Role of Col1a2 in Collagen Deposition in the Carapace of the Chinese Soft-Shelled Turtle (Pelodiscus sinensis): From Molecular Evolution to Expression Profile and Then to Function Validation
Junxian Zhu, Yingqi Ning, Caixia Gao, Chen Chen, Liqin Ji, Xiaoyou Hong, Xiaoli Liu, Chengqing Wei, Xinping Zhu, Xuegeng Wang, Wei Li

TL;DR
This study identifies the role of the Col1a2 gene in collagen production in the shell of Chinese soft-shelled turtles, offering insights for selective breeding.
Contribution
The first molecular characterization of Col1a2 in Pelodiscus sinensis and its functional validation in collagen deposition.
Findings
Col1a2 is conserved in tetrapods but divergent in fishes, with a shared gene block across vertebrates.
Knockdown of Col1a2 in turtle carapace cells reduced collagen content and altered gene expression related to collagen deposition.
Col1a2 expression correlates with collagen levels in carapace development and is active in fibroblasts.
Abstract
The carapace of the Chinese soft-shelled turtle (Pelodiscus sinensis) is rich in collagen and stands as a crucial economic trait for assessing its quality, as well as a key indicator for selective breeding. However, current studies on the mechanisms underlying collagen deposition in the carapace remain severely limited, significantly hindering progress in selective breeding. Here, the Col1a2 gene of P. sinensis was molecularly characterized for the first time. Analysis of gene structure, phylogenetic tree, and amino acid sequence homology revealed that Col1a2 is relatively conserved among tetrapods but divergent from fishes. Collinearity analysis identified the BET1-COL1A2-CASD1-SGCE gene block shared across all 14 representative vertebrates and found that the Col1a2 is located on the Z chromosome of Thamnophis elegans. Tissue expression analysis showed that Col1a1 was highly expressed…
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Taxonomy
TopicsDevelopmental Biology and Gene Regulation · TGF-β signaling in diseases · Tendon Structure and Treatment
