Project description:WGBS was used to assess gene expression variation between 2X and 4X grape

Project description:Gene expression variation during grape genome duplication

Project description:RNA-seq was used to assess gene expression variation between 2X and 4X grape

Project description:Gene expression variation in grape transgenic calli lines

Project description:Detailed analyses of the clone-based genome assembly reveal that the recent duplication content of mouse (4.94%) is now comparable to that of human (5.5%), in contrast to previous estimates from the whole-genome shotgun sequence assembly. The architecture of mouse and human genomes differ dramatically; most mouse duplications are organized into discrete clusters of tandem duplications that are depleted for genes/transcripts and enriched for LINE1 and LTR retroposons. We assessed copy-number variation of the C57BL/6J duplicated regions within 15 mouse strains used for genetic association studies, sequencing, and the mouse phenome project. We determined that over 60% of these basepairs are polymorphic between the strains (on average 20 Mbp of copy-number variable DNA between different mouse strains). Our data suggest that different mouse strains show comparable, if not greater, copy-number polymorphism when compared to human; however, such variation is more locally restricted. We show large and complex patterns of inter-strain copy-number variation restricted to large gene families associated with spermatogenesis, pregnancy, viviparity, phermone signaling, and immune response. Keywords: comparative genomic hybridization

Project description:Detailed analyses of the clone-based genome assembly reveal that the recent duplication content of mouse (4.94%) is now comparable to that of human (5.5%), in contrast to previous estimates from the whole-genome shotgun sequence assembly. The architecture of mouse and human genomes differ dramatically; most mouse duplications are organized into discrete clusters of tandem duplications that are depleted for genes/transcripts and enriched for LINE1 and LTR retroposons. We assessed copy-number variation of the C57BL/6J duplicated regions within 15 mouse strains used for genetic association studies, sequencing, and the mouse phenome project. We determined that over 60% of these basepairs are polymorphic between the strains (on average 20 Mbp of copy-number variable DNA between different mouse strains). Our data suggest that different mouse strains show comparable, if not greater, copy-number polymorphism when compared to human; however, such variation is more locally restricted. We show large and complex patterns of inter-strain copy-number variation restricted to large gene families associated with spermatogenesis, pregnancy, viviparity, phermone signaling, and immune response. Keywords: comparative genomic hybridization Genomic DNA of 14 inbred mouse strains was tested against reference C57BL/6J sample. C57BL/6J DNA sample from another individual was tested as negative control.

Project description:Comparative genomic hybridization of strains PN1 (no duplication) and PN1400 (duplication in Chromosome 3)

Project description:Genome wide DNA methylation in blood derived DNA from individuals with deletion or duplication of 7q11.23

Project description:Grape berries undergo considerable physical and biochemical changes during the ripening process. Ripening is characterized by a number of changes, including the degradation of chlorophyll, an increase in berry deformability, a rapid increase in the level of hexoses in the berry vacuole, an increase in berry volume, the catabolism of organic acids, the development of skin colour, and the formation of compounds that influence flavour, aroma, and therefore, wine quality. The aim of this work is to identify differentially expressed genes during grape ripening by microarray and real-time PCR techniques. Using a custom array of new generation, we analysed the expression of 6000 grape genes from pre-veraison to full maturity, in Vitis vinifera cultivar Muscat of Hamburg, in two different years (2006 and 2007). Five time points per year and two biological replicates per stadium were considered. To reduced intra-plant and inter-plant biological variability, for each ripening stadium we collected around hundred berries from several bunch grapes of five plants of V. vinifera cv Muscat of Hamburg. We will use the real-time PCR technique to validate microarray data.Muscat of Hamburg. We will use the real-time PCR technique to validate microarray data.

Project description:Doubled haploids (DHs) fix traits from hybrids in one generation. DH induction includes two changes in ploidy levels typically associated with variation in DNA methylation. However, DNA methylation patterns in DH plants and their biological significance are largely unknown. We generated three DH lines in Arabidopsis thaliana by crossing a haploid inducer to the accession Col-0, thus removing tissue culture and hybridization as a variable. DH induction produced thousands of differentially DNA methylated regions (DMRs), most of which were stochastic. Both haploidization and colchicine-induced genome duplication produced DMRs; the former mainly yielded DMRs at non-CG contexts, whereas the latter affected differential gene body methylation. Spontaneous genome doubling of haploid plants also induced DMRs in greater numbers than self-propagation. Our results provide the first evidence that haploid induction and genome doubling result in differential DNA methylation, offering a novel approach to induce epialleles.