Abstract

High glycogen in oysters contributes to their flavor, quality, and hardiness, making it a crucial target trait for breeding purposes. Until now, the upstream regulatory mechanism for glycogen synthesis has remained unclear. Protein phosphatase-1 regulatory subunit 3 (PPP1R3) is a member of a family that directs the protein phosphatase-1 (PP1) to glycogen, resulting in the activation of glycogen synthase (GS) and the inactivation of glycogen phosphorylase (GP). However, their functions in molluscan species have remained unclear until now. In our study, we verified the function of the PP1α/PPP1R3D pathways in the glycogen metabolism process in Crassostrea gigas. Initially, we conducted a phylogenetic analysis and identified two PP1 and PPP1R3 members in molluscan species, emphasizing copy number variations in eukaryotic animals. Additionally, we identified distinct substitutions of conserved motifs specific to bivalves, Cephalopoda, or Gastropods, revealing functional diversity in PP1 and PPP1R3. Our primary focus was on PP1α/PPP1R3D in the oyster C.gigas, detected in the muscle glycogen fraction of bivalve species, with mRNA expression showing a positive correlation with glycogen content. By manipulating CgPPP1R3D expression in oysters through adenovirus-mediated overexpression or siRNA-mediated downregulation, we established a direct positive correlation between CgPPP1R3D expression levels and glycogen content. Colocation analysis confirmed protein interactions between CgPP1α and CgPPP1R3D. Furthermore, to elucidate the correlation between gene expression and glycogen accumulation, we conducted an association analysis and identified a cluster of significant SNP loci upstream of CgPPP1R3D significantly related to glycogen content. The high polymorphism observed may be linked to differential expressions of CgPPP1R3D in oyster individuals with high and low glycogen levels. These findings serve as a crucial reference for enhancing glycogen traits in molluscan species.

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