Project description:Resistant bacteria +medium dose antibiotic group1

Project description:Resistant bacteria +low dose antibiotic group1

Project description:Resistant bacteria +high dose antibiotic group1

Project description:Antibiotics control group1

Project description:Resistant bacteria control group3

Project description:Resistant bacteria control group2

Project description:Group1

Project description:Objectives: To identify gene expression changes in acne flare-up patients, thereby exploring the mechanisms of acne flare-up after treatment. Methods: 11 acne patients and 3 healthy people were divided into 4 groups (group1: 4 with flare-up, group2: 4 with improvement, group3: 3 without obvious changes, group4: healthy control). Peripheral blood of patients before and after isotretinoin or minocycline were collected. RNA-seq were used to detect the gene expression. We applied data in self-contrast and intergroup comparisons. Results: In the self-contrast of group1, 22 upregulated genes were involved in Toll-like receptor signaling pathway and inflammatory response. Comparing group1 and group3 before treatment, 1778 upregulated genes enriched in Th17 cell differentiation, while 57 downregulated genes enriched in defensive response to organism. Conclusions: The gene expression profiles of acne flare-up patients changed. Inflammatory, immune responses played a prominent role in acne flare-up process and relatively weak defensive response to microbes, comedogenesis might be risk factors.

Project description:Blood samples from healthy controls and PAD patients were collected at Xiangya Hospital, China. Two to three milliliters of venous blood were drawn into EDTA-coated tubes and stored at 4°C. Plasma was isolated after centrifugation (2,000 g, 10 min, 4°C), aliquoted, and send to perform MS. Group1: Health control D1, A5, A46, B14,B22; Group2: PAD C6 C29 D45 A32

Project description:The aim of this experiment was to determine if the development of resistance to antibiotics can be driven by the concentration and speciation of Cu. Experimental setup was designed to investigate two hypotheses for which two strains of Gram- bacteria have been selected: - Do TE enhance AR in resistant bacteria? Resistant strain: Bioluminescent Pseudomonas aeruginosa PAO1 (Xen41, Tetracycline resistant) - Do TE induce AR in sensitive bacteria? Sensitive strain: Pseudomonas aeruginosa PAO1 (Wild Type)