Project description:Analysis of non-differentiated Caco-2 intestinal epithelial cell line treated with polydextrose fermentation metabolites fermented for 48 hours in 4-stage in vitro colon simulator, in which the conditions mimic the human proximal, ascending, transverse and distal colon in sequence , as well as with medium, 100 mM NaCl and 5 mM butyrate. Polydextrose, a soluble fiber fermented in colon, was fermented with the in vitro colon simulator in three amounts of 0%, 1% and 2%. Results provide insight into the mechanisms underlying colon cancer cells and a comparison of a complex fiber metabolome to 5 mM butyrate and 100 mM NaCl. Furthermore, the results give insight of dosage effect of increasing the concentration of fiber. High level of dietary fiber has been epidemiologically linked to protection against the risk for developing colon cancer. The mechanisms of this protection are not clear. Fermentation of dietary fiber in the colon results in production of for example butyrate that has drawn attention as a chemopreventive agent. Polydextrose, a soluble fiber that is only partially fermented in colon, was fermented in an in vitro colon simulator, in which the conditions mimic the human proximal, ascending, transverse and distal colon in sequence. The subsequent fermentation metabolome were applied on colon cancer cells, and the gene expression changes studied. Polydextrose fermentation down-regulated classes linked with cell cycle, and affected number of metabolically active cells. Further, up-regulated effects on classes linked with apoptosis implicate that polydextrose fermentation plays a role in induction of apoptosis in colon cancer cells. The up-regulated genes involved also key regulators of lipid metabolism, such as PPARg and PGC-1α. These results offer hypotheses for the mechanisms of two health benefits linked with consumption of dietary fiber, reducing risk of development of colon cancer, and dyslipidemia.

Project description:Analysis of non-differentiated Caco-2 intestinal epithelial cell line treated with polydextrose fermentation metabolites fermented for 48 hours in 4-stage in vitro colon simulator, in which the conditions mimic the human proximal, ascending, transverse and distal colon in sequence , as well as with medium, 100 mM NaCl and 5 mM butyrate. Polydextrose, a soluble fiber fermented in colon, was fermented with the in vitro colon simulator in three amounts of 0%, 1% and 2%. Results provide insight into the mechanisms underlying colon cancer cells and a comparison of a complex fiber metabolome to 5 mM butyrate and 100 mM NaCl. Furthermore, the results give insight of dosage effect of increasing the concentration of fiber. High level of dietary fiber has been epidemiologically linked to protection against the risk for developing colon cancer. The mechanisms of this protection are not clear. Fermentation of dietary fiber in the colon results in production of for example butyrate that has drawn attention as a chemopreventive agent. Polydextrose, a soluble fiber that is only partially fermented in colon, was fermented in an in vitro colon simulator, in which the conditions mimic the human proximal, ascending, transverse and distal colon in sequence. The subsequent fermentation metabolome were applied on colon cancer cells, and the gene expression changes studied. Polydextrose fermentation down-regulated classes linked with cell cycle, and affected number of metabolically active cells. Further, up-regulated effects on classes linked with apoptosis implicate that polydextrose fermentation plays a role in induction of apoptosis in colon cancer cells. The up-regulated genes involved also key regulators of lipid metabolism, such as PPARg and PGC-1α. These results offer hypotheses for the mechanisms of two health benefits linked with consumption of dietary fiber, reducing risk of development of colon cancer, and dyslipidemia. Non-differentiated Caco-2 cells were treated with polydextrose fermentation metabolites from the vessels representing different parts of the colon, or with 100 mM NaCl or with 5 mM butyrate for 24 hours. For polydextrose fermentation three concentrations of polydextrose were used: 0%, 1% and 2% for a simulation that lasted for 48 hours. Polydextrose fermentation samples from total of 12 vessels, as well as from medium sample, 5 mM butyrate and 100 mM NaCl were analysed as single replica.

Project description:Castor fiber fiber Raw sequence reads

Project description:In the present study molecular interactions between potato plants, Colorado potato beetle (CPB) larvae and Potato virus YNTN (PVYNTN) were investigated by analyzing gene expression in potato leaves. Grant ID: J4-4165 Slovenian Research Agency ARRS Growth and defense trade-offs in multitrophic interaction between potato and its two major pests Grant ID: P4-0165 Slovenian Research Agency ARRS Biotechnology and Plant Systems Biology

Project description:Transcriptional profiling of cotton fiber cells from two cotton germplasm lines, MD 52ne and MD 90ne. Comparison of fiber cell transcription profiles is between the two germplasm lines and over a developmental time-course from 8 to 24 days post anthesis in four day intervals. Cotton plants grown in 3-4 row plots of approximately 300-400 individual plants. Bulked fiber samples from multiple plants per each plot represented a biological replication. There were 3-4 spatially distinct plots per cotton germplasm line. Loop microarray hybridization experimental design. Biological replicates: 2 for each germplasm line at each time-point. Technical replicates: 2 for each germplasm line at each time-point (dye-swap).

Project description:This clinical trial tests whether daily fiber supplementation will change the mucosal microbiome of the colon. The microbiome are microorganisms that live in the human gut. They serve a vital role in maintaining health. Certain microbial strains are associated with the growth of colon polyps, which eventually could go on to form colon cancer. Giving dietary fiber supplements may help prevent precancerous polyps from ever developing.

Project description:Here we have shown that diet-mediated alterations of the gut microbiota composition cause an erosion of the colonic mucus barrier. A compensatory increase in cellular mucus production by the host is not sufficient to re-establish the barrier, possibly due to a lacking increase in mucus secretion. While microbial transplant from mice fed a fiber-rich diet can prevent the mucus defects, the mechanism seems to be independent of general fiber fermentation and rather depend on distinct bacterial species and/or their metabolites.

Project description:With increasing age microglia shift toward a pro-inflammatory phenotype and become hyperresponsive to inflammatory stimuli, disrupting brain homeostasis. Soluble fibers have been suggested as a dietary strategy to prevent or reverse microglia dysregulation, due to the bioactive nature of the short chain fatty acids (SCFA; e.g., butyrate) produced during its fermentation in the colon.

Project description:The purpose of this study is to survey gene expression of potato (solanum tuberosum gilroy) in a variety of tissues and life cycle timepoints. Potato plants were grown from true seeds, planted in either soil or MS media, and grown in growth chambers. Four biological replicates each of twenty different tissue samples were collected at the appropriate timepoints. The samples were immediately frozen at -80. The tissues were then ground into a powder in liquid nitrogen, and RNA was extracted using Qiagen's QiaShredder columns and Qiagen's Rneasy MinElute Kit. The RNA was amplified using Arcturus' RiboAmp RNA Amplification Kit. 1ug of amplified RNA was used in TIGR's indirect labelleling procedure. All hybridaztions were applied to TIGR's 10kV4 potato array. Keywords: Loop design

Project description:Castor fiber Assembly