Project description:Interventions: Analysis of bacteremia after ESD of the colon.
Primary outcome(s): Identification of bacteremia after ESD testing blood culture and 16SrRNA gene sequencing.
Study Design: Single arm Non-randomized
Project description:Ambient temperature affects energy intake and expenditure to maintain homeostasis in a continuously fluctuating environment. Here, mice with an adipose-specific defect in fatty acid oxidation (Cpt2A-/-) were subjected to varying temperature to determine the role of adipose bioenergetics to environmental adaptation. Cpt2A-/- brown adipose tissue (BAT) failed to induce thermogenic genes such as Ucp1 and Pgc1α in response to adrenergic stimulation, which is exacerbated by increasing temperature. Thermoneutrality induced a mitochondrial DNA stress in Cpt2A-/- BAT that resulted in a loss of classical interscapular BAT, but did not affect body weight gain or glucose tolerance in response to a high-fat diet. In this dataset, we include the expression data obtained from dissected mouse interscapular brown adipose tissue from mice acclimatized to thermoneutrality (30C) with and without beta3adrenergic stimulation with and without the deletion of carnitine palmitoyltransferase 2 (i.e., adipose unable to beta-oxidize long chain fatty acids in mitochondria).
Project description:Single-cell RNA sequencing of adipose tissue from SPF, GF, and humanized flora (HFA) pigs provides high-resolution transcriptome data, that provide a unique view for the interactions of gut microbiota and lipid metabolism.
Project description:There are 10 mice in the experiment, named REC. The mice were fed with high salt diets (5% NaCl) for 4 weeks and then fed with normal salt diets for 4 weeks. Then extracted DNA from mice gastric flora to detect changes in the gastric flora of mice.
Project description:Altitude acclimatization is the physiological process to restore oxygen delivery to the tissues and promote the oxygen application under high altitude hypoxia. High altitude illness could happen in individuals who did not get acclimatization. Unraveling the molecular underpinnings of altitude acclimatization would help people to understand the beneficial response of body to high altitude hypoxia and disturbed biological process in un-acclimatized individuals. Here, we measured physiological adjustments and circulating microRNAs (cmiRNAs) profiles of individuals exposed to high altitude to explore the altitude acclimatization in humans.
Project description:We report miRNA expression profiles underlying curd-forming capacity at high temperature in two broccoli lines by high-throughput sequencing.
