Abstract
To date, research on poultry egg production performance has only been conducted within inter or intra-breed groups, while those combining both inter- and intra-breed groups are lacking. Egg production performance is known to differ markedly between Sichuan white goose (Anser cygnoides) and Landes goose (Anser anser). In order to understand the mechanism of egg production performance in geese, we undertook this study. Here, 18 ovarian stromal samples from both Sichuan white goose and Landes goose at the age of 145 days (3 individuals before egg production initiation for each breed) and 730 days (3 high- and low egg production individuals during non-laying periods for each breed) were collected to reveal the genome-wide expression profiles of ovarian mRNAs and lncRNAs between these two geese breeds at different physiological stages. Briefly, 58, 347, 797, 777, and 881 differentially expressed genes (DEGs) and 56, 24, 154, 105, and 224 differentially expressed long non-coding RNAs (DElncRNAs) were found in LLD vs. HLD (low egg production Landes goose vs. high egg production Landes goose), LSC vs. HSC (low egg production Sichuan White goose vs. high egg production Sichuan white goose), YLD vs. YSC (young Landes goose vs. young Sichuan white goose), HLD vs. HSC (high egg production Landes goose vs. high egg production Sichuan white goose), and LLD vs. LSC (low egg production Landes goose vs. low egg production Sichuan white goose) groups, respectively. Functional enrichment analysis of these DEGs and DElncRNAs suggest that the “neuroactive ligand–receptor interaction pathway” is crucial for egg production, and particularly, members of the 5-hydroxytryptamine receptor (HTR) family affect egg production by regulating ovarian metabolic function. Furthermore, the big differences in the secondary structures among HTR1F and HTR1B, HTR2B, and HTR7 may lead to their different expression patterns in goose ovaries of both inter- and intra-breed groups. These results provide novel insights into the mechanisms regulating poultry egg production performance.
Highlights
Compared to chickens and ducks, geese have poorer egg production performance, which severely impedes the development of the goose industry [1]
Almost all differentially expressed genes (DEGs) enriched in this pathway, including OPRM1, F2RL2, GLRA2, HTR7, HTR2B, OPRK1, P2RY13, GRM4, LEPR, HTR1B, LPAR3, AVPR1A, and GABRP, were significantly upregulated in the ovarian stroma of Sichuan white geese (SWG)
These results suggested that the neuroactive ligand–receptor interaction pathway was more active in individuals with high egg production performance than those with low egg production
Summary
Compared to chickens and ducks, geese have poorer egg production performance, which severely impedes the development of the goose industry [1]. There are inter-breed and intra-breed differences in egg production performance. Most studies on poultry egg production performance have focused. Genes 2020, 11, 455 on the mechanisms underlying either inter-breed or intra-breed differences [4,5,6]. There lack studies that include comparisons between different breeds differing in egg numbers and between different ages within the same breed to better reveal the mechanisms controlling egg production performance. The combined analysis of the two ages can help us to systematically understand the goose’s egg production performance
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