Brian Bishop scite author profile

Insertion sequence (IS) elements are important mediators of genome plasticity and can lead to phenotypic changes with evolutionary significance. In multidrug-resistant Acinetobacter baumannii and Klebsiella pneumoniae, IS elements have contributed significantly to the mobilization of genes that encode resistance to antimicrobial drugs. A systematic analysis of IS elements is needed for a more comprehensive understanding of their evolutionary impact. We developed a computational approach (ISseeker) to annotate IS elements in draft genome assemblies and applied the method to analysis of IS elements in all publicly available A. baumannii(>1000) and K. pneumoniae(>800) genome sequences, in a phylogenetic context. Most IS elements in A. baumanniigenomes are species-specific ISAba elements, whereas K. pneumoniaegenomes contain significant numbers of both ISKpn elements and elements that are found throughout the Enterobacteriaceae. A. baumanniigenomes have a higher density of IS elements than K. pneumoniae, averaging ~33 vs ~27 copies per genome. In K. pneumoniae, several insertion sites are shared by most genomes in the ST258 clade, whereas in A. baumannii, different IS elements are abundant in different phylogenetic groups, even among closely related Global Clone 2 strains. IS elements differ in the distribution of insertion locations relative to genes, with some more likely to disrupt genes and others predominantly in intergenic regions. Several genes and intergenic regions had multiple independent insertion events, suggesting that those events may confer a selective advantage. Genome- and taxon-wide characterization of insertion locations revealed that IS elements have been active contributors to genome diversity in both species.

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Genomic sequence coding for tunycamicin resistance in yeast

Hartog¹,

Bishop²

1987

Nucl Acids Res

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Next‐generation DNA sequencing of HEXA: a step in the right direction for carrier screening

Hoffman

Greger

Strovel

et al. 2013

Molec Gen & Gen Med

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Tay-Sachs disease (TSD) is the prototype for ethnic-based carrier screening, with a carrier rate of ∼1/27 in Ashkenazi Jews and French Canadians. HexA enzyme analysis is the current gold standard for TSD carrier screening (detection rate ∼98%), but has technical limitations. We compared DNA analysis by next-generation DNA sequencing (NGS) plus an assay for the 7.6 kb deletion to enzyme analysis for TSD carrier screening using 74 samples collected from participants at a TSD family conference. Fifty-one of 74 participants had positive enzyme results (46 carriers, five late-onset Tay-Sachs [LOTS]), 16 had negative, and seven had inconclusive results. NGS + 7.6 kb del screening of HEXA found a pathogenic mutation, pseudoallele, or variant of unknown significance (VUS) in 100% of the enzyme-positive or obligate carrier/enzyme-inconclusive samples. NGS detected the B1 allele in two enzyme-negative obligate carriers. Our data indicate that NGS can be used as a TSD clinical carrier screening tool. We demonstrate that NGS can be superior in detecting TSD carriers compared to traditional enzyme and genotyping methodologies, which are limited by false-positive and false-negative results and ethnically focused, limited mutation panels, respectively, but is not ready for sole use due to lack of information regarding some VUS.

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Complete Genome Sequence of a Porcine Polyomavirus from Nasal Swabs of Pigs with Respiratory Disease

Hause¹,

Smith²,

Bishop³

et al. 2018

Genome Announc

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Brian Bishop

Quantitative assessment of insertion sequence impact on bacterial genome architecture

Genomic sequence coding for tunycamicin resistance in yeast

Next‐generation DNA sequencing of HEXA: a step in the right direction for carrier screening

Complete Genome Sequence of a Porcine Polyomavirus from Nasal Swabs of Pigs with Respiratory Disease

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