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Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
A Family Of Genus-Specific Rnas In Tandem With Dna-Binding Proteins Control Expression Of The Bada Major Virulence Factor Gene In Bartonella Henselae, Nhan Tu, Ronan K. Carroll, Andy Weiss, Lindsey N. Shaw, Gael Nicolas, Sarah Thomas, Amorce Lima, Udoka Okaro, Burt Anderson
A Family Of Genus-Specific Rnas In Tandem With Dna-Binding Proteins Control Expression Of The Bada Major Virulence Factor Gene In Bartonella Henselae, Nhan Tu, Ronan K. Carroll, Andy Weiss, Lindsey N. Shaw, Gael Nicolas, Sarah Thomas, Amorce Lima, Udoka Okaro, Burt Anderson
Molecular Biosciences Faculty Publications
Bartonella henselae is a gram-negative zoonotic bacterium that causes infections in humans including endocarditis and bacillary angiomatosis. B. henselae has been shown to grow as large aggregates and form biofilms in vitro. The aggregative growth and the angiogenic host response requires the trimeric autotransporter adhesin BadA. We examined the transcriptome of the Houston-1 strain of B. henselae using RNA-seq revealing nine novel, highly-expressed intergenic transcripts (Bartonella regulatory transcript, Brt1-9). The Brt family of RNAs is unique to the genus Bartonella and ranges from 194 to 203 nucleotides with high homology and stable predicted secondary structures. Immediately downstream of each …
Towards The Complete Small Rnome Of Acinetobacter Baumannii, Andy Weiss, William H. Broach, Mackenzie C. Lee, Lindsey N. Shaw
Towards The Complete Small Rnome Of Acinetobacter Baumannii, Andy Weiss, William H. Broach, Mackenzie C. Lee, Lindsey N. Shaw
Molecular Biosciences Faculty Publications
In recent years, the Gram-negative bacterium Acinetobacter baumannii has garnered considerable attention for its unprecedented capacity to rapidly develop resistance to antibacterial therapeutics. This is coupled with the seemingly epidemic emergence of new hyper-virulent strains. Although strain-specific differences for A. baumannii isolates have been well described, these studies have primarily focused on proteinaceous factors. At present, only limited publications have investigated the presence and role of small regulatory RNA (sRNA) transcripts. Herein, we perform such an analysis, describing the RNA-seq-based identification of 78 A. baumannii sRNAs in the AB5075 background. Together with six previously identified elements, we include each of …
Transcriptomic Analysis Of Staphylococcal Srnas: Insights Into Species-Specific Adaption And The Evolution Of Pathogenesis, William H. Broach, Andy Weiss, Lindsey N. Shaw
Transcriptomic Analysis Of Staphylococcal Srnas: Insights Into Species-Specific Adaption And The Evolution Of Pathogenesis, William H. Broach, Andy Weiss, Lindsey N. Shaw
Molecular Biosciences Faculty Publications
Next-generation sequencing technologies have dramatically increased the rate at which new genomes are sequenced. Accordingly, automated annotation programs have become adept at identifying and annotating protein coding regions, as well as common and conserved RNAs. Additionally, RNAseq techniques have advanced our ability to identify and annotate regulatory RNAs (sRNAs), which remain significantly understudied. Recently, our group catalogued and annotated all previously known and newly identified sRNAs in several Staphylococcus aureus strains. These complete annotation files now serve as tools to compare the sRNA content of S. aureus with other bacterial strains to investigate the conservation of their sRNomes. Accordingly, in …