Project description:The effects of increasing addition of green tea in dietary changes the bacterial populations in broiler ileum were evaluated. Four hundreds of AA broilers were randomly assigned to four groups with green tea addition of 0, 0.5, 1 and 2 percent in the diet. The body weight showed no difference but a digital increase positively correlated with addition of green tea. The content of green tea had a linear effect of lengthening the ileum villi. The barcoded DNA pyrosequencing method was used to reveal 15 phyla, 1157phylotypes and 3098 16S operational taxonomic units (OTUs). The most predominant bacterial phyla were Firmicutes (56.89%), Actinobacteria (30.58%), Proteobacteria (8.61%) and Bacteroidetes (2.72%). As the proportion of additional green tea increased, the abundance of phylum Actinobacteria (p=0.003) and Proteobacteria (p=0.049) almost linearly increased, while the proportion of Firmicutes (p=0.027) linearly decreased. Only 2 OTUs were significantly affected by the increased additive, Corynebacteriaceae (p=0.011) and Staphylococcaceae (p= 0.006). Triplot analysis suggested that the dominant phyla of Verrucomicrobia, TM7 and Actinobacteria were clearly related to the addition of green tea. Moreover, green tea addition influenced the construction of microbiota, and lengthened the villus in ileum by Monte Carlo permutation test. These findings provide a new understanding of the ileal microbial ecology, which may be useful in modulating the gut microbiome, and also the proper usage of powdered green tea.

Project description:green tea extracts analyzed with DDA MS for self service metabolomics training in the ARC MS facility at CSU

Project description:We investigated the effect of green tea extract on phenotype characteristics and elucidated anti-obesity mechanism based on RNA-seq transcriptomic profiles in an obesity animal model.

Project description:This study tested the anti-inflammatory potential of a green tea extract rich in polyphenols (GrTP) in the colon of the multi-drug resistance targeted mutation (Mdr1a-/-) mouse model of IBD. A colonic histological injury score was determined for each mouse to establish the effect of GrTP on inflammation. Insights into mechanisms responsible for changes in inflammation were gained using transcriptome (microarray) and proteome (2-D gel electrophoresis and LCMS protein identification) analyses.

Project description:In this study, it is noticeable that 32 tea-specific miRNAs were confirmed on the base of genome survey, using deep sequencing and microarray hybridization, and many miRNAs might associate with secondary metabolites synthesis. Leaves, buds and roots were collected

Project description:The microRNAs reveal the molecular mechanism involved in the regulation of leaf development in Xinyang Maojian green tea.

Project description:Di (2-ethylhexyl) phthalate (DEHP) is a common plasticizer. Studies have revealed that DEHP exposure can cause liver damage. Green tea is one of the most popular beverages in China. Green tea polyphenols (GTPs) have been proven to have therapeutic effects on organ damage induced by heavy metal exposure. However, few study report on GTP relieving DEHP-induced liver damage.

Project description:We investigated the effect of an oriental herbal medicine “Taeeumjowuitang” on phenotype characteristics and elucidated anti-obesity mechanism based on RNA-seq transcriptomic profiles in an obesity animal model comparison with green tea extract.

Project description:Metabolic disorders, such as obesity and type 2 diabetes, are major public health concerns worldwide. Dietary interventions, such as tea consumption, have been suggested as an effective strategy to prevent and treat metabolic disorders. White adipose tissue, as the main energy storage organ in mammals, plays a critical role in the regulation of whole-body metabolism. Recent studies have shown that the microenvironmental cell composition and metabolic network of white adipose tissue can be modulated by dietary factors, including tea consumption. However, the underlying mechanisms and the effects of tea consumption on white adipose tissue in the context of high-fat diet-induced metabolic disorders are not fully understood. Therefore, this study aimed to investigate the effects of tea consumption on the microenvironmental cell composition and metabolic network of white adipose tissue in high-fat diet-fed mice.

Project description:This study tested the anti-inflammatory potential of a green tea extract rich in polyphenols (GrTP) in the colon of the multi-drug resistance targeted mutation (Mdr1a-/-) mouse model of IBD. A colonic histological injury score was determined for each mouse to establish the effect of GrTP on inflammation. Insights into mechanisms responsible for changes in inflammation were gained using transcriptome (microarray) and proteome (2-D gel electrophoresis and LCMS protein identification) analyses. A total of 24 male Mdr1a-/- mice purchased from Taconic (Hudson, NY, USA) at 4-5 weeks of age were used for this study. 12 mice were randomly assigned to each of two different dietary groups: control (AIN-76A powdered diet), or GrTP (AIN-76A + 0.6% green tea polyphenol). At 21 and 24 weeks of age, mice were euthanized and colon samples taken for histological and microarray analyses. The total histology score (HIS) in the colon was determined according to previously described criteria. Total RNA was isolated using TRIzol reagent. Colon RNA from four Mdr1a-/- mice on the GrTP diet (with low HIS) was compared with colon RNA from four Mdr1a-/- mice on the AIN-76A diet (with high HIS). All individual RNA samples were hybridized against a common reference RNA on separate slides. The reference RNA was prepared using equimolar RNA extracts from small intestine, colon, kidney and liver of normal healthy growing Swiss mice plus RNA extracts from Swiss mouse fetuses.