posted on 2021-06-23, 11:03authored byYaqi Meng, Ning Qiu, Yoshinori Mine, Russell Keast
Yolk sac (YS, include the yolk content)
at different chick embryogenesis
stages possesses varying lipid distributions, which are nutrition-influencing
factors for the health of an early embryo and a later adult. YS lipids
can substantially influence embryogenesis metabolism, but a comprehensive
understanding of lipid’s influence remains unknown. Herein,
the effects of embryogenesis on lipid profiling of chick YS were investigated
by UHPLC-MS/MS-based lipidomics. A total of 2231 lipid species across
57 subclasses were identified in the YS, and 1011 lipids were significantly
different (P < 0.05) at the incubation days of
0, 7, 13, and 18. Specifically, phosphocholine and phosphatidylglycerol
in late-stage embryogenesis potentially assist with prehatching gas
exchange and infection resistance in the environment after lung respiration.
In addition, the accumulated lysophosphatidylcholine at day 18 may
induce apoptosis and disturb the membrane structure of YS to enable
better absorption by the embryo abdomen. The decreased cardiolipin
in late embryogenesis may be due to transportation to the embryo and
integration into the mitochondrial membrane to accelerate energy metabolism
for the rapidly developing embryo after day 13. Therefore, this study
demonstrated the lipid profile alteration of the developing YS, providing
theoretical guidance for researching the developmental origins of
health and disease.