Abstract
Lipids are the main energy source for embryonic development in oviparous animals. Prior to the utilization and catabolism, lipids are primarily transported from the yolk sac to embryonic tissues. In the present study, cDNA encoding a circulatory large lipid transfer protein (LLTP) superfamily member, the precursor of large discoidal lipoprotein (dLp) and high-density lipoprotein/β-1,3-glucan-binding protein (HDL-BGBP), named dLp/HDL-BGBP of 14,787 bp in length, was cloned from the mud crab Scylla paramamosain. dLp/HDL-BGBP was predicted to encode a 4,831 amino acids (aa) protein that was the precursor of dLp and HDL-BGBP, which were both detected in hemolymph by liquid chromatography–mass spectrometry (LC-MS/MS) analysis. For the intracellular LLTP, three microsomal triglyceride transfer protein (MTP) cDNAs of 2,905, 2,897, and 3,088 bp in length were cloned from the mud crab and were predicted to encode MTP-A of 881 aa, MTP-B of 889 aa, and MTP-C of 919 aa, respectively, which were different merely in the N-terminal region and shared an identical sequence of 866 aa. During embryonic development, the expression level of dLp/HDL-BGBP consecutively increased from the early appendage formation stage to the eye pigment-formation stage, which indicated that HDL-BGBP is probably the scaffolding protein for yolk lipid. For the MTP gene, MTP-C accounted for ~70% of MTP mRNA from the blastocyst stage to the nauplius stage, as well as the pre-hatching stage; MTP-C and MTP-A expression levels were comparable from the early appendage formation stage to the late eye pigment-formation stage; MTP-A was extremely low in blastocyst and gastrula stages; MTP-B was expressed at a relatively low-level throughout embryo development. The variations in the expression profiles among MTP transcripts suggested that MTP might play roles in the lipid droplet maturation and lipoprotein assembly during embryonic development.
Highlights
Lipids are the main energy source for embryonic development and are stored in yolk sac-forming droplets in oviparous animals
Yolk lipid transfer is extremely vital for embryonic development in oviparous animals
14 peptide fragments matched to Portunus trituberculatus apoLp of 1,253 aa (A0A5B7CQW6), with sequence coverage of 12.7%, and shared 87% identity with the S. paramamosain discoidal lipoprotein (dLp)/HDL-BGBP sequence from amino acid residue 99 to 1,333
Summary
Lipids are the main energy source for embryonic development and are stored in yolk sac-forming droplets in oviparous animals. The yolk lipids that accumulate originally in oocytes are derived from tissues of fat absorption and/or storage during ovarian maturation (Schneider, 2016; Fruttero et al, 2017; Price, 2017; Quinlivan and Farber, 2017). Specific roles of lipid droplets and associated mechanisms in the embryo remain to be determined, lipid transfer from the yolk sac to embryonic tissues is undoubtedly the prerequisite of supply and function (Heras et al, 2000; Speake and Thompson, 2000; Yamahama et al, 2008; Miyares et al, 2014; Schneider, 2016). Yolk lipid transfer is extremely vital for embryonic development in oviparous animals
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