Project description:High-throughput sequencing has opened numerous possibilities for the identification of regulatory RNA-binding events. Cross-linking and immunoprecipitation of Argonaute protein members can pinpoint microRNA target sites within tens of bases, but leaves the identity of the microRNA unresolved. A flexible computational framework that integrates sequence with cross-linking features reliably identifies the microRNA family involved in each binding event, considerably outperforms sequence-only approaches, and quantifies the prevalence of noncanonical binding modes. Ago2 (Argonaute 2) PAR-CLIP and RNA deep sequencing of Epstein-Barr virus B95.8-infected Lymphoblastoid Cell Lines (LCLs)

Project description:RNA-seq based transcriptome analysis was employed to understand the genome-wide expression patterns under cultivation with resistant starch (RS). To identify differentially expressed genes, we compared RS-induced transcriptome to non-RS transcriptome as sole carbon source.

Project description:Resistant starches (RS), fed as high amylose maize starch (HAMS) or butyrylated HAMS (HAMSB), oppose dietary protein-induced colonocyte DNA damage in rats. In this study, rats were fed diets high in fat (19%) and protein (20%) with different forms of digestible starch (low amylose maize starch (LAMS) or low amylose whole wheat (LAW)) or RS (HAMS, HAMSB, or a whole high amylose wheat (HAW) generated by RNA interference (RNAi)) for 11 wk. A control diet contained 7% fat, 13% protein and LAMS. The aim of this study was to detect changes in the expression of DNA damage and repair genes in response to the above dietary treatments.

Project description:Consumption of resistant starch (RS) has been associated with various intestinal health benefits, but knowledge on its effects on global gene expression in the colon is limited. The main objective of the current study was to identify genes affected by RS in the proximal colon to infer which biologic pathways were modulated. Ten 17-wk-old male pigs, fitted with a cannula in the proximal colon for repeated collection of tissue biopsy samples and luminal content, were fed a digestible starch (DS) diet or a diet high in RS (34%) for 2 consecutive periods of 14 d in a crossover design. Analysis of the colonic transcriptome profiles revealed that, upon RS feeding, oxidative metabolic pathways, such as the tricarboxylic acid cycle and β-oxidation, were induced, whereas many immune response pathways, including adaptive and innate immune system, as well as cell division were suppressed. The nuclear receptor peroxisome proliferator-activated receptor γ (PPARG) was identified as a potential key upstream regulator. RS significantly (P < 0.05) increased the relative abundance of several butyrate-producing microbial groups, including the butyrate producers Faecalibacterium prausnitzii and Megasphaera elsdenii, and reduced the abundance of potentially pathogenic members of the genus Leptospira and the phylum Proteobacteria. Concentrations in carotid plasma of the 3 main short-chain fatty acids acetate, propionate, and butyrate were significantly higher with RS consumption compared with DS consumption. Overall, this study provides novel insights on effects of RS in proximal colon and contributes to our understanding of a healthy diet. Ten pigs were fitted with a cannula in the proximal colon for repeated collection of tissue biopsies, and were fed a digestible starch or a resistant starch diet for two consecutive periods of 14 days in a crossover design. After each intervention period a colonic biopsy was taken and subjected to gene expression profiling.

Project description:The goal was to assess the impact of carbon source and cross-feeding on transcription profile of both bacteria. R. gnavus was grown in monoculture with glucose (Glc). R. bromii was grown in monoculture with soluble (SS) or resistant (RS) starch. R. bromii and R. gnavus were co-cultured with SS or RS. Total RNA was extracted from a culture sample taken at mid- to late exponential phase of growth. rRNA was depleted and mRNA sequenced. 3 biological replicates were prepared for each condition.

Project description:The gene expression profiling analyses by DNA chip showed that the gene expression pattern of mice fed resveratrol-enriched rice DJ526 was very different from mice fed either resveratrol or Dongjin rice alone, respectively, modifying expression of genes related to aging regulation, cell differentiation, extracellular matrix, neurogenesis, or secretion. (1) Ctrl (The control mice fed a NFD in which the carbohydrate source was corn starch and sucrose), (2) RS (resveratrol mice fed a NFD in which the carbohydrate source was corn starch and sucrose except containing resveratrol), (3) DJ (Dongjin mice fed a NFD in which the corn starch and sucrose were replaced with Dongjin rice), and (4) DJ526 (DJ526 mice fed a NFD in which the corn starch and sucrose were replaced with the resveratrol-enriched rice DJ526)

Project description:High-throughput sequencing has opened numerous possibilities for the identification of regulatory RNA-binding events. Cross-linking and immunoprecipitation of Argonaute protein members can pinpoint microRNA target sites within tens of bases, but leaves the identity of the microRNA unresolved. A flexible computational framework that integrates sequence with cross-linking features reliably identifies the microRNA family involved in each binding event, considerably outperforms sequence-only approaches, and quantifies the prevalence of noncanonical binding modes.

Project description:Activation domains (ADs) within transcription factors (TFs) induce gene expression by recruiting coactivators to specific regulatory regions. Within the prevailing model, TF-coactivator recruitment is independent of DNA binding, which is consistent with direct AD-coactivator interactions seen outside cells. However, this independence was not yet tested within the genomic context. Here, we targeted two Med15-interacting ADs to hundreds of budding yeast promoters through fusions with multiple DNA binding domains (DBDs), gradually controlling their abundances using libraries of synthetic promoters. Genomic profiling revealed that AD identity influences DNA binding locations and that transcription induction and Med15 recruitment are restricted to a subset of DBD-bound promoters displaying flexible expression, multiple-TFs binding, and fuzzy nucleosome architecture. Further, when fused to a DBD, Med15 redirected binding towards promoters of fuzzy nucleosomes, overcoming DBD-based preferences. Our results demonstrate that ADs and their recruited coactivators posses an inherent preference for genomic localization and, therefore, define the subset of induced promoters.

Project description:Activation domains (ADs) within transcription factors (TFs) induce gene expression by recruiting coactivators to specific regulatory regions. Within the prevailing model, TF-coactivator recruitment is independent of DNA binding, which is consistent with direct AD-coactivator interactions seen outside cells. However, this independence was not yet tested within the genomic context. Here, we targeted two Med15-interacting ADs to hundreds of budding yeast promoters through fusions with multiple DNA binding domains (DBDs), gradually controlling their abundances using libraries of synthetic promoters. Genomic profiling revealed that AD identity influences DNA binding locations and that transcription induction and Med15 recruitment are restricted to a subset of DBD-bound promoters displaying flexible expression, multiple-TFs binding, and fuzzy nucleosome architecture. Further, when fused to a DBD, Med15 redirected binding towards promoters of fuzzy nucleosomes, overcoming DBD-based preferences. Our results demonstrate that ADs and their recruited coactivators posses an inherent preference for genomic localization and, therefore, define the subset of induced promoters.

Project description:Background. Resistant Starch (RS) improves CKD outcomes. In this report we study how RS modulates host-microbiome interactions in CKD by measuring changes in abundance of proteins and bacteria in the gut. In addition, we demonstrate RS-mediated reduction in CKD-induced kidney damage. Methods. Eight mice underwent 5/6 nephrectomy to induce CKD and 8 served as healthy controls. CKD and Healthy (H) groups were further split into those receiving RS (CKDRS, n=4; HRS, n=4) and those on normal diet (CKD, n=4, H, n=4). Kidney injury was evaluated by measuring BUN/creatinine and by most-mortem histopathological evaluation. Cecal contents were analyzed mass spectrometry-based metaproteomics. PEAKS Studio was used to identify peptides via de novo sequencing. A set of R/Bioconductor packages and in house written scripts was further used to infer bacteria present, to evaluate changes in proteins and bacterial abundances, and to perform statistical analysis and hierarchical clustering. Results. The 5/6 nephrectomy compromised kidney function as seen by an increase in creatinine and BUN. Representative photomicrographs of trichrome-stained kidney sections showed reduced tubulointerstitial injury in CKD mice fed HAM-RS2 diet comparing to CKD mice fed normal diet. Identified organisms and proteins point toward a higher population of butyrate-producing bacteria, and reduced abundance of mucin-degrading bacteria. Conclusion. Resistant starch slows the progression of chronic kidney disease. Gut barrier function through maintenance of the mucin barrier plays a role in RS-associated improvements in CKD phenotype. Resistant starch supplementation leads to the active bacterial proliferation and the reduction of harmful bacterial metabolites.