👤 S Wimmers

The mammary gland is key to all mammal species; in particular in multiparous species like pigs the number and the shape of functional mammary gland complexes are major determinants of fitness. Accordingly, we aimed to catalog the genes relevant to mammogenesis in pigs. Moreover, we aimed to address the hypothesis that the extent and timing of proliferation, differentiation, and maturation processes during prenatal development contribute to postnatal numerical, morphological and functional properties of the mammary gland. Thus we focused on differentially expressed genes and networks relevant to mammary complex development in two breeds that are subject to different selection pressure on number, shape and function of teats and show largely different prevalence of non-functional inverted teats. The expression patterns of fetal mammary complexes obtained at 63 and 91 days post conception (dpc) from German Landrace (GL) and Pietrain (PI) were analyzed by Affymetrix GeneChip Porcine Genome Arrays. The expression of 11,731 probe sets was analysed between the two stages within and among breeds. The analysis showed the largest distinction of samples of the breed GL at 63 dpc from all other samples. According to Ingenuity Pathways Analysis transcripts with abundance at the four comparisons made (GL63-GL91, PI63-PI93, GL63-PI63 and GL91-PI91) were predominantly assigned to biofunctions relevant to 'cell maintenance, proliferation, differentiation and replacement', 'organismal, organ and tissue development' and 'genetic information and nucleic acid processing'. Moreover, these transcripts almost exclusively belong to canonical pathways related to signaling rather than metabolic pathways. The accumulation of transcripts that are up-regulated in GL compared to PI indicate a higher proliferating activity in GL, whereas processes related to differentiation, maturation and maintenance of cells are more prominent in PI. Differential expression was validated by quantitative RT-PCR of five genes (GAB1, MAPK9, PIK3C2B, PIK3C3 and PRKCH) that are involved in several relevant signaling pathways. The results indicate that mammary complex development in PI precedes GL. The differential expression between the two breeds at fetal stages likely reflects the prenatal initiation of postnatal phenotypes concerning the number and shape as well as functionality of teats. Show less

The present study aimed at identifying bovine hepatic and intestinal DNA sequences expressed breed specifically as potential functional candidate genes for nutrient transformation. Transcript levels of 29 expressed sequence tags (ESTs) were analysed comparatively in the liver and intestine of growing Charolais and German Holstein bulls by real-time RT-PCR. In previous studies, these ESTs were characterized as differentially displayed in mRNA differential display of cows varying in metabolic type and harbouring single nucleotide polymorphisms. Breed-specific gene expression levels indicate significantly increased hepatic metabolic activity in Charolais and increased intestinal metabolic activity in German Holstein bulls. Transcript levels of six functional genes measured in liver (NDUFB8, NACA, UAP1, SAH) and intestine (FUS/TLS, APOC3), respectively, support this assumption. The observed coincidence of metabolic type-specific expressed ESTs with variant ESTs showing breed-specific allele distribution points to functional genetic variants located in the vicinity of the analysed sequences. In addition, location of most of the breed specifically expressed ESTs within chromosome regions known to be affecting carcass and growth traits in cattle supports the putative candidate gene character of the ESTs identified. Show less