Sökning: "Gene families"
Visar resultat 6 - 10 av 338 avhandlingar innehållade orden Gene families.
6. Applied bioinformatics for gene characterization
Sammanfattning : As the vast majority of human protein-encoding genes are now identified, the new challenge placed before life scientists is the determination of the functions of the proteins. Traditionally, intense, directed efforts are applied to decipher the function of a novel protein using laboratory techniques. LÄS MER
7. RNA-based mechanisms of chromatin and gene regulation
Sammanfattning : Cells regulate gene expression in a particular spatio-temporal manner by executing specific transcriptional programs. The different transcriptional programs allow the generation of the different cell types in multicellular organisms and mediate particular cellular responses to external cues such as viral infections. LÄS MER
8. Evolutionary Analysis of the Insulin-Relaxin Gene Family from the Perspective of Gene and Genome Duplication Events
Sammanfattning : Paralogs arise by duplications and belong to families. Ten paralogs (insulin; IGF-1 and -2; INSL3-6 and 3-relaxins) constitute the human insulin-relaxin family. The aim of this study was to outline the duplications that gave rise to the vertebrate insulin-relaxin genes and the chromosomal regions in which they reside. LÄS MER
9. Underlying genetic mechanisms of hereditary dystrophies in retina and cornea
Sammanfattning : Inherited retinal and corneal dystrophies represent a group of disorders with great genetic heterogeneity. Over 250 genes are associated with retinal diseases and 16 genes are causative of corneal dystrophies. LÄS MER
10. Functional Diversification among MADS-Box Genes and the Evolution of Conifer Seed Cone Development
Sammanfattning : MADS-box genes are important regulators of reproductive development in seed plants, including both flowering plants and conifers. In this thesis the evolution of the AGAMOUS subfamily of MADS-box genes, and what the ancestral function of this group of genes might have been in the early seed plants about 300 million years ago, was addressed by the discovery of two novel conifer genes, both basal to all previously known AGAMOUS subfamily genes. LÄS MER