Faculty Mentor

Swapna Bhat

Proposal Type

Poster

Start Date

2-11-2019 3:20 PM

End Date

2-11-2019 4:30 PM

Location

Cleveland Ballroom

Abstract

Antibiotics have played a major role in containing bacterial infections. Extended spectrum beta (β) lactamases, better known as ESBLs, are enzymes produced by the bacterial family Enterobacteriaceae that inhibit the activity of many common antibiotics used today such as penicillin. The genes that encode for ESBLs are bla genes and are plasmid encoded. Thus, they can be easily transferred to different species of bacteria via horizontal transmission. In this study, freshwater samples were collected upstream and downstream of a water treatment plant and were tested for ESBL-producing bacteria. A total of 12 colonies were isolated and DNA extraction was performed. Future testing includes antibiotic susceptibility assay, gel electrophoresis and 16S sequencing for proper bacterial identification. A correlation between antibiotic resistance as well as the presence and amount of bla genes is to be analyzed and compared to results from samples collected and performed previously. As ESBLs are easily conferred to other bacterial species, the results are significant in identifying how the environment affect ESBL-producing Enterobacteriaceae and whether this contributes toward the uprising issue of increasing antibiotic resistance. Ultimately, the significance of this research applies toward public health as Enterobacteriaceae are found naturally within humans and are the causes of many infections and diseases.

Keywords: ESBL, antibiotic resistance, transmission, health, bla genes

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Nov 2nd, 3:20 PM Nov 2nd, 4:30 PM

#39 - Extended-Spectrum Beta (β) Lactamase-producing Enterobacteriaceae Isolates from Flat Creek Water Samples

Cleveland Ballroom

Antibiotics have played a major role in containing bacterial infections. Extended spectrum beta (β) lactamases, better known as ESBLs, are enzymes produced by the bacterial family Enterobacteriaceae that inhibit the activity of many common antibiotics used today such as penicillin. The genes that encode for ESBLs are bla genes and are plasmid encoded. Thus, they can be easily transferred to different species of bacteria via horizontal transmission. In this study, freshwater samples were collected upstream and downstream of a water treatment plant and were tested for ESBL-producing bacteria. A total of 12 colonies were isolated and DNA extraction was performed. Future testing includes antibiotic susceptibility assay, gel electrophoresis and 16S sequencing for proper bacterial identification. A correlation between antibiotic resistance as well as the presence and amount of bla genes is to be analyzed and compared to results from samples collected and performed previously. As ESBLs are easily conferred to other bacterial species, the results are significant in identifying how the environment affect ESBL-producing Enterobacteriaceae and whether this contributes toward the uprising issue of increasing antibiotic resistance. Ultimately, the significance of this research applies toward public health as Enterobacteriaceae are found naturally within humans and are the causes of many infections and diseases.

Keywords: ESBL, antibiotic resistance, transmission, health, bla genes