Project description:The weaning process has been identified as being associated with stress, weight loss and stereotypies. To limit these problems, some breeders wean the foals gradually. This article presents the effects of a progressive weaning on various physiological parameters (cortisol, C reactive protein, length of telomeres) and on the blood transcriptome, among the foals and the mares. Results indicate that a progressive weaning has beneficial short-term effects in foals, and that in the longer term the foals weaned abruptly have compensated this gap. In mothers, the beneficial effects of the progressive weaning are less important.
Project description:The weaning process has been identified as being associated with stress, weight loss and stereotypies. To limit these problems, some breeders wean the foals gradually. This article presents the effects of a progressive weaning on various physiological parameters (cortisol, C reactive protein, length of telomeres) and on the blood transcriptome, among the foals and the mares. Results indicate that a progressive weaning has beneficial short-term effects in foals, and that in the longer term the foals weaned abruptly have compensated this gap. In mothers, the beneficial effects of the progressive weaning are less important.
Project description:To identify genes specifically expressed in lactating mammary glands, the gene expression profiles of luminal and basal cells from different developmental stages were compared. Comparison of gene expression in luminal and basal cells harvested from the mammary glands of virgin, 18.5 day pregnant and 2 day lactating mice (2 mice per stage).
Project description:To identify genes specifically expressed in lactating mammary glands, the gene expression profiles of luminal and basal cells from different developmental stages were compared.
Project description:To characterize miRNA expression throughout gestation, we utilized small RNA sequencing to evaluate matched chorioallantois and serum samples from mares at 4 m gestation (n = 3), 10 m gestation (n = 3) and postpartum (n = 3), as well as serum from diestrus mares (n = 6).
Project description:A comparative gene map of the horse genome composed of 127 loci was assembled based on the new assignment of 68 equine type I loci and on data published previously. PCR primers based on consensus gene sequences conserved across mammalian species were used to amplify markers for assigning 68 equine type I loci to 27 horse synteny groups established previously with a horse-mouse somatic cell hybrid panel (SCHP, UC Davis). This increased the number of coding genes mapped to the horse genome by over 2-fold and allowed refinements of the comparative mapping data available for this species. In conjunction with 57 previous assignments of type I loci to the horse genome map, these data have allowed us to confirm the assignment of 24 equine synteny groups to their respective chromosomes, to provisionally assign nine synteny groups to chromosomes, and to further refine the genetic composition established with Zoo-FISH of two horse chromosomes. The equine type I markers developed in this study provide an important resource for the future development of the horse linkage and physical genome maps.
