Project description:4 growth modes - RNA from Laramie & Houston RNA

Project description:Purpose: To identify the differential transcriptional patterns during postnatal cardiac growth, pressure-induced cardiac hypertrophy and adult mouse hearts Results: Our data revealed novel transcriptional patterns during cardiac growth conditions. The results showed that most of the essential genes are regulated by promoter clearance of paused RNA pol II, while de novo recruitment is required for regulation of mostly speclaized genes during cardiac growth. We have identified two major modes of gene regulation durign cardiac hypertrophy and four transcriptional growth patterns. The results are published in January 2013 issue of Journal of Biological Chemistry. Methods: Hearts were extracted from 1-2day old C57 mice, from mice subjecetd to Transaortic coarctation or adult mice. The hearts were sent to Active Motif for RNA polII and H3K9ac- ChIP-Seq.

Project description:Purpose: To identify the differential transcriptional patterns during postnatal cardiac growth, pressure-induced cardiac hypertrophy and adult mouse hearts Results: Our data revealed novel transcriptional patterns during cardiac growth conditions. The results showed that most of the essential genes are regulated by promoter clearance of paused RNA pol II, while de novo recruitment is required for regulation of mostly speclaized genes during cardiac growth. We have identified two major modes of gene regulation durign cardiac hypertrophy and four transcriptional growth patterns. The results are published in January 2013 issue of Journal of Biological Chemistry.

Project description:In this study we showed that one PTS of S. mutans is specific for biofilm mode of growth in the presence of sucrose. Our data indicates that this PTS is involved in transport and metabolism of disaccharides and possibly oligosaccharides synthesized by GtfI and GtfSI. Global transcriptional patterns were obtained in different growth modes on specific carbohydrates (glucose, sucrose and nigerose). To assure reproducibility of the data, the cultures were always grown to the same optical density for RNA extraction, cDNA synthesis and hybridization on Affymetrix microarrays. Multiple conditions were analyzed with 2 or 6 replicates for each. Carbohydrate response in different growth modes.

Project description:SOX9 is a transcriptional activator required for chondrogenesis, and SOX5 and SOX6 are closely related DNA-binding proteins that critically enhance its function. We used RNA-seq to charatierize a rat chondrosarcoma (RCS) cells as a faithful model for proliferating/early prehypertrophic growth plate chondrocytes and ChIP-seq to gain novel insights into the full spectrum of the target genes and modes of action of this chondrogenic trio. ChIP-seq for SOX9, SOX6 and histone modifications were carried out using RCS cells

Project description:Sfp1 regulates yeast cell growth and division through multiple promoter binding modes

Project description:Comparative transcriptomic analysis between methane- and methane plus xylose- grown cultures revealed different transcriptional responses of pXyl M. alcaliphilum 20Z strain on diffirent growth modes.

Project description:The multiple modes of response to ambient pH were explored and new regulatory structures determined. Biological triplicates from the mid-exponential growth phase of controlled bioreactor batch-cultivations of A. niger.

Project description:PVY Transmission Modes

Project description:We reveal three-dimensional patterns of tumour growth by exploiting the unique metastasizing patterns of treatment naïve stage IIIC/IV epithelial ovarian cancer. We performed topographic mapping of structural genomic rearrangements, coding mutations, copy number changes and RNA expression in biopsies derived from 27 primary and metastatic sites across three patients. Based on somatic genomic changes, we performed sample clustering and obtained unique insight in natural tumour growth and spread. Based on extensive multi-level profiling, our data highlight the diverse modes of epithelial ovarian cancer development before applying selective pressure from therapy.