Program asm alaska Branch Meeting Friday 4/12/2013
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- Respiratory Viruses Update and Review
- Molecular Epidemiology of Invasive Group A Streptococcal Disease in Alaska, 2001 – 2011.
- Population structure of invasive pneumococcal isolates among Alaskan children in the post-conjugate vaccine era.
- Synergistic Degradation of Lignocellulose by Fungi and Bacteria in Boreal Forest Soil
- Overview of Sulfolane as an Emerging Contaminant in the Tanana River Aquifer
- Microbial Ecology of Natural and Accelerated Sulfolane Biodegradation in Contaminated Subarctic Aquifers
- Detection of Sulfolane Degrading Isolates in Contaminated Groundwater using T-RFLP
- Arctic Bioluminescent Bacteria: Effects of Temperature and pH
- Acetic Acid Production by Gluconacetobacter spp. Isolated from Kombucha Community
| Program ASM Alaska Branch Meeting
Friday 4/12/2013 3:30pm Dr. Janice Matthews-Greer from the LSU Health Sciences Center in Shreveport (LSUHSC-S) Overview of Molecular Infectious Disease Testing Reception and Beer Tasting to follow 7 pm No-Host Dinner at Glacier Brew House. Saturday 4/13/2013 9:00 Business meeting 10:00 am Coffee break 10:15 Presentations Dr. Janice Matthews-Greer (LSUHSC-S): Respiratory Viruses Update and Review 12:00 pm Lunch break 1:00 pm Presentations: Karen Rudolph (CDC) Molecular Epidemiology of Invasive Group A Streptococcal Disease in Alaska, 2001 – 2011 Samantha Case (APHL/CDC): Population structure of invasive pneumococcal isolates among Alaskan children in the post-conjugate vaccine era Robert A. Burgess (UAF): Synergistic Degradation of Lignocellulose by Fungi and Bacteria in Boreal Forest Soil 1:50 pm Break 2:00 pm Presentations James Fish (Alaska DEC): Overview of Sulfolane as an Emerging Contaminant in the Tanana River Aquifer Christopher Kasanke (UAF) Microbial Ecology of Natural and Accelerated Sulfolane Biodegredation in Contaminated Subarctic Aquifers Robert Burgess (UAF): Detection of Sulfolane Degrading Isolates in Contaminated Groundwater using T-RFLP 2:50 Break 3:00 pm Presentations Jasmine Carroll and Katherine Lange (UAA) Arctic Bioluminescent Bacteria: Effects of Temperature and pH Kendall Neilsen and Ashley Mueller (UAA) Acetic Acid Production by Gluconacetobacter Isolated from Kombucha Community Molecular Epidemiology of Invasive Group A Streptococcal Disease in Alaska, 2001 – 2011. Karen Rudolph, Michael Bruce, Dana Bruden, Tammy Zulz, Alisa Reasonover, Debby Hurlburt, Thomas Hennessy Arctic Investigations Program, Centers for Disease Control and Prevention, 4055 Tudor Center Drive, Anchorage, Alaska
Samantha Case APHL/CDC Emerging Infectious Diseases Training Fellow CDC Arctic Investigations Program Introduction of conjugate vaccines against Streptococcus pneumoniae have led to a significant decrease in overall rates of invasive pneumococcal disease (IPD), particularly in children less than five years of age. However, cases of IPD caused by nonvaccine serotypes have increased. Thus, it is critical to continue monitoring the molecular epidemiology of IPD. Sterile site isolates received at AIP from children under five years of age from 2001-2012 have been serotyped and tested for antibiotic resistance. Multilocus sequence typing is ongoing and will be used to characterize the genetic background of the isolates. Using the data produced by MLST, a population snapshot of the IPD isolates will be generated to determine if there have been changes in the clonal composition of the isolates since the introduction of the two conjugate vaccines: PCV7 in 2001 and PCV13 in 2010. Synergistic Degradation of Lignocellulose by Fungi and Bacteria in Boreal Forest Soil Robert A. Burgess, D. Lee Taylor, Kelsie Stone, Mary Beth Leigh University of Alaska Fairbanks
James Fish, Environmental Project Specialist, Alaska Department of Environmental Conservation, Contaminated Sites Program In 2009, the compound sulfolane was detected in drinking water wells of North Pole, Alaska residents, located down-gradient from the Flint Hills Resources North Pole Refinery. This presentation will provide a brief overview on refinery operations, a background on the spill history of sulfolane, and a synopsis of the Alaska Department of Environmental Conservation’s efforts to understand the biodegradation and fate and transport of this emerging contaminant in subsurface soil and groundwater of the Tanana River aquifer. Microbial Ecology of Natural and Accelerated Sulfolane Biodegradation in Contaminated Subarctic Aquifers C. P. Kasanke, M.B. Leigh University of Alaska Fairbanks
Robert Burgess1, Michael Ortego1, Kaitlynn McKirgan1, Jacob Howell1, Christopher Kasanke 1, Jim Fish2, Mary Beth Leigh1 1University of Alaska Fairbanks 2Alaska Department of Environmental Conservation Sulfolane, a chemical used in refining petroleum, is a recently identified (emerging) environmental contaminant. While previous studies have demonstrated that sulfolane can be degraded by microbes, very little is known about the identity and distribution of sulfolane degraders in the environment or in sulfolane contaminated groundwater. This study examined the identity and distribution of sulfolane degraders in the Flint Hills Refinery (FHR) sulfolane plume located in North Pole, Alaska. Twenty-two sulfolane degrading bacteria were isolated from plume groundwater by using previously developed differential media followed by growth on agar plates containing sulfolane as the sole carbon source (SOCS). Sulfolane degradation was confirmed by inoculating liquid SOCS media with each isolate and enumerating bacteria with plate counts over a time course. Terminal restriction fragment length polymorphism (T-RFLP) analysis was performed on a subset of isolates to determine the length of their terminal restriction fragments (T-RFs). T-RFLP was also performed on groundwater samples from within the FHR plume, including from an area influenced by an air sparging pilot system. Microbial communities within the plume appear to be affected by sulfolane concentration, the presence of petroleum co-contaminants, and the air sparge system. Additionally, all groundwater samples from within the plume contain a T-RF of the same size as the isolate T-RF in high abundance. Air sparging increases the relative abundance of this T-RF in the microbial community. These results suggest that sulfolane degrading bacteria are present in the plume and that air sparging may increase their abundance. Arctic Bioluminescent Bacteria: Effects of Temperature and pH Authors: Jasmine Carroll and Katherine Lange University of Alaska Anchorage
Kendall Neilsen and Ashley Mueller University of Alaska Anchorage Kombucha is a popular fermented beverage originating in China that is prepared by the fermentation of sweetened tea by a symbiosis of acetic bacteria and yeast strains. Currently several strains within the Gluconacetobacter and Acetobacter genera have been identified in kombucha samples with Gluconacetobacter xylinus being the dominant strain. This goal of this research was to isolate G. xylinus from a kombucha sample and investigate the ethanol tolerance and qualitatively measure acetic acid production. The formation of a cellulose pellicle suggested that the isolates were G. xylinus. Glucose yeast calcium carbonate (GYCA) enrichment agar and Frateur’s medium was used to select and differentiate between genera, while an antifungal agent was used to inhibit any yeast growth. Further biochemical tests including catalase and oxidase tests, and the presence of a capsule confirmed that the isolated strain was G. xylinus. After the strain was isolated, it was cultured in various ethanol concentrations to determine the optimal ethanol concentration required to produce the maximum amount of acetic acid. Download 23.56 Kb. Share with your friends:
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