RESUMO
Embryo implantation is a critical step in the establishment of pregnancy. However, the mechanisms of embryo implantation during early pregnancy in goats remain unclear due to the lack of published studies examining the genes involved in embryo implantation. As a popular goat breed in southwest China, Dazu black goats (DBGs) are highly adaptable and exhibit high fertility, making this breed a good model in which to study reproductive performance of goats. Here, morphological analysis showed that compared with the non-pregnant (NP) groups, the endometrial thickness of the goats in the P15 and P19 groups (15 and 19-day pregnant groups, respectively) were increased (P < 0.01). Proliferating Cell Nuclear Antigen (PCNA) staining showed that PCNA was expressed in the NP, P15, and P19 groups. Transcriptome analysis was then conducted to identify gene expression patterns in uterine tissue during DBG embryo implantation. By comparing uterine tissue at different stages of embryonic implantation, 48 in NP_vs._P15, 318 in NP_vs._P19, and 1439 in P15_vs._P19, differentially expressed mRNAs were identified. Gene Ontology (GO) enrichments of the differentially expressed genes were enriched in the extracellular region, extracellular space, transporter activity, extracellular region, immune system process, immune response, and defense response etc. Through Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis, the biological metabolic pathways with which the differentially expressed genes are associated were explored. Through KEGG analysis, the DBGs were associated with oxidative phosphorylation, complement and coagulation cascades, arginine and proline metabolism, metabolic pathways, arachidonic acid metabolism, and ECM-receptor interaction. These candidate genes (CSF1, C1S, CST6, SLC24A4, HOXA10, HOXA11, MMP9, and ITGA11) and enriched signaling pathways could be valuable references for exploring the molecular mechanisms underlying goat embryo implantation.
Mammalian embryo implantation refers to the process that the embryo normally develops to the blastocyst stage, contacts the maternal endometrium, and establishes one kind structural connection. This intimate connection allows for the process of maternalfetal material exchange, which is one of the key steps in the successful pregnancy. The success of embryo implantation depends on two aspects of the endometrium and the embryo, 1) the maternal endometrium is in a receptive state, and 2) the embryo develops normally, both of which are indispensable. In this stage, the mechanism of embryo implantation early in goat pregnancy is not clear, as only few limited studies have been conducted into gene expression in the uterus during embryo implantation. In this study, goat uterine tissue was systematically collected during the periods of non-pregnancy, pregnancy recognition, and embryo adhesion. And the morphological changes of the uterus in the different gestational stages were also observed, and gene expression associated with embryo implantation was further analyzed by RNA-seq method. This study provides a preliminary dataset for analyzing the molecular mechanisms regulating goat embryo implantation.
Assuntos
Cabras , Transcriptoma , Gravidez , Feminino , Animais , Antígeno Nuclear de Célula em Proliferação/metabolismo , Cabras/genética , Cabras/metabolismo , Endométrio/metabolismo , Perfilação da Expressão Gênica/veterinária , Implantação do Embrião/genéticaRESUMO
Yudong black goats (YDGs) are a local breed in southwest China that possess unique meat qualities and produce a high meat yield, making them ideal models for studying goat meat quality. Castration may decrease off-odors, significantly change metabolites and improve meat quality. Using multi-omics techniques, this study focused on Yudong black goat wethers (YDW, n = 4) and Yudong black bucks (YDB, n = 4). The findings revealed that 33 differentially expressed genes (DEGs) and 279 significantly changed metabolites (SCMs) influenced goat meat quality by affecting fat accumulation and lipolysis regulatory processes. Herein, several candidate genes (IGF1, TNNT2, PPP2R2C, MAPK10 and VNN1, etc.) were identified that play a role in regulating meat quality, non-castrated and castrated, alongside a series of metabolites that may serve as potential meat quality biomarkers. Lipids (triglycerides, oxidized lipids_5-iso PGF2VI, ceramide (t18:1/36:2(2OH)) and Carnitine C20:5, etc.) were significantly higher in the castrated goats. These results revealed that lipids and hydrophilic metabolites were affected by castration, which might be beneficial in terms of goat meat quality. This study aimed to investigate the differences in meat quality between uncastrated and castrated male goats and the possible molecular regulatory mechanisms.