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Full-Text Articles in Medicine and Health Sciences
Bpab, A Novel Protein Encoded By The Lyme Disease Spirochete's Cp32 Prophages, Binds To Erp Operator 2 Dna, Logan H. Burns, Claire A. Adams, Sean P. Riley, Brandon L. Jutras, Amy Bowman, Alicia M. Chenail, Anne E. Cooley, Laura A. Haselhorst, Alisha M. Moore, Kelly Babb, Michael G. Fried, Brian Stevenson
Bpab, A Novel Protein Encoded By The Lyme Disease Spirochete's Cp32 Prophages, Binds To Erp Operator 2 Dna, Logan H. Burns, Claire A. Adams, Sean P. Riley, Brandon L. Jutras, Amy Bowman, Alicia M. Chenail, Anne E. Cooley, Laura A. Haselhorst, Alisha M. Moore, Kelly Babb, Michael G. Fried, Brian Stevenson
Microbiology, Immunology, and Molecular Genetics Faculty Publications
Borrelia burgdorferi produces Erp outer surface proteins throughout mammalian infection, but represses their synthesis during colonization of vector ticks. A DNA region 5′ of the start of erp transcription, Operator 2, was previously shown to be essential for regulation of expression. We now report identification and characterization of a novel erp Operator 2-binding protein, which we named BpaB. erp operons are located on episomal cp32 prophages, and a single bacterium may contain as many as 10 different cp32s. Each cp32 family member encodes a unique BpaB protein, yet the three tested cp32-encoded BpaB alleles all bound to the same DNA …
Proteomic Analysis Of Iron Acquisition, Metabolic And Regulatory Responses Of Yersinia Pestis To Iron Starvation, Rembert Pieper, Shih-Ting Huang, Prashanth P. Parmar, David J. Clark, Hamid Alami, Robert D. Fleischmann, Robert D. Perry, Scott N. Peterson
Proteomic Analysis Of Iron Acquisition, Metabolic And Regulatory Responses Of Yersinia Pestis To Iron Starvation, Rembert Pieper, Shih-Ting Huang, Prashanth P. Parmar, David J. Clark, Hamid Alami, Robert D. Fleischmann, Robert D. Perry, Scott N. Peterson
Microbiology, Immunology, and Molecular Genetics Faculty Publications
BACKGROUND: The Gram-negative bacterium Yersinia pestis is the causative agent of the bubonic plague. Efficient iron acquisition systems are critical to the ability of Y. pestis to infect, spread and grow in mammalian hosts, because iron is sequestered and is considered part of the innate host immune defence against invading pathogens. We used a proteomic approach to determine expression changes of iron uptake systems and intracellular consequences of iron deficiency in the Y. pestis strain KIM6+ at two physiologically relevant temperatures (26°C and 37°C).
RESULTS: Differential protein display was performed for three Y. pestis subcellular fractions. Five characterized Y. pestis …