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Item Understanding physiological adaptations, metabolic potential and ecology in a novel photoautotrophic alga for biofuel production(Montana State University - Bozeman, College of Letters & Science, 2019) Corredor Arias, Luisa Fernanda; Chairperson, Graduate Committee: Matthew Fields; Elliot B. Barnhart, Al Parker, Robin Gerlach and Matthew W. Fields were co-authors of the article, 'Impact of temperature, nitrate concentration, PH and bicarbonate addition on biomass and lipid accumulation of a sporulating green alga' which is contained within this dissertation.; Thiru Ramaraj, Huyen Bui, Mensur Dlakic, Robin Gerlach and Matthew W. Fields were co-authors of the article, 'Genomic insights into a sporulating, non-motile, oligotrophic green microalga (PW95)' which is contained within this dissertation.; Huyen Bui, Thiru Ramaraj, Robin Gerlach and Matthew W. Fields were co-authors of the article, 'Transcriptomic profiling of Chlamydomonas-like PW95 cultivated in coal bed methane production water with the native microbial community' which is contained within this dissertation.; Anna J. Zelaya, Robin Gerlach and Matthew W. Fields were co-authors of the article, 'Associations between sympatric bacterial groups and a novel green alga cultivated in coal bed methane production water' which is contained within this dissertation.Commercial implementation of microalgal biomass as bio-oil/chemical feedstocks has been difficult to achieve, and challenges include water/nutrient sources, CO 2 delivery, and community dynamics of mixed cultures. We employed an integrated approach to the study of microalgal production systems to advance towards sustainable implementation of industrial microalgal biofuel production using a native alga (Chlamydomonas-like alga, PW95) isolated from Coal Bed Methane (CBM) production water. Our approach was based on the evaluation of PW95 physiological responses to combinations of growth constraints, the determination of its genomic and functional potential, phylogenetic relations and the implementation of an ecosystem view to algal biomass production. PW95 growth and lipid accumulation (biofuel potential) were ascertained in standardized media and CBM water through the evaluation of mixed effects of temperatures, nitrate levels, pH, and bicarbonate to elucidate interactions between multiple environmental variables and nutritional levels. The biofuel potential of PW95 ranges between 20-32% depending on culture conditions and our results suggest an important interaction between low nitrate levels, high temperature, and elevated pH for trade-offs between biomass and lipid production in the alga. Whole genome sequence was employed to predict biological and metabolic capacity in PW95, and the expression of these capabilities during growth in CBM water with the native microbial consortia was evaluated using RNA sequencing. genome determination and assembly resulted in a draft genome size of 92 Mbp with 14,000 genes predicted and 402 pathways mapped in the KEGG database. The gene complement of PW95 provided a glance into life in an oligotrophic environment (CBM water) and evidence of essential metabolic pathways for cell growth, survival and maintenance, also relevant for cultivation and value-added products generation. Microbial composition and shifts during growth were identified, as well as the algal phycosome. During growth in CBM water, PW95 appeared to be supported by a native microbial consortium and differential expression analysis showed basic metabolic functions and adaptive physiological responses. Our findings build on previous knowledge for improved algal culturing for biomass and industry-valued products while exploring the biology of an organism with relevant impact in energy and water resource management.Item Relationship between super antigenicity, antimicrobial resistance and origin of Staphylococcus aureus isolated(2016-01) Corredor Arias, Luisa Fernanda; Luligo Espinal, Jenna Samara; Moncayo Ortiz, José Ignacio; Santacruz Ibarra, Jorge Javier; Álvarez Aldana, AdalucyIntroduction: Staphylococcus aureus is a pathogen that causes food poisoning as well as hospital and community acquired infections. Objective: Establish the profile of superantigen genes among hospital isolates in relation to clinical specimen type, susceptibility to antibiotics and hospital or community acquisition. Methods: Eighty one isolates obtained from patients at Colombian hospital, were classified by antimicrobial susceptibility, specimen type and hospital or community acquired. The PCR uniplex and multiplex was used for detection of 22 superantigen genes (18 enterotoxins, tsst-1 and three exfoliative toxins). Results: Ninety five point one percent of isolates harbored one or more of the genes with an average of 5.6 genes. Prevalence of individual genes was variable and the most prevalent was seg (51.9%). Thirty nine genotypes were obtained, and the genotype gimnou (complete egc cluster) was the most prevalent alone (16.0%) and in association with other genes (13.6%). The correlation between presence of superantigens and clinical specimen or antimicrobial susceptibility showed no significant difference. But there was significant difference between presence of superantigens and the origin of the isolates, hospital or community acquired (p= 0.049). Conclusions: The results show the variability of the superantigen genes profile in hospital isolates and shows no conclusive relationship with the clinical sample type and antimicrobial susceptibility, but there was correlation with community and hospital isolates. The analysis of the interplay between virulence, epidemic and antibiotic resistance of bacterial populations is needed to predict the future of infectious diseases.