Allison F. Gillaspy

Genomic Sequence of an Otitis Media Isolate of Nontypeable Haemophilus influenzae: Comparative Study with H. influenzae Serotype d, Strain KW20

In 1995, the Institute for Genomic Research completed the genome sequence of a rough derivative of Haemophilus influenzae serotype d, strain KW20. Although extremely useful in understanding the basic biology of H. influenzae, these data have not provided significant insight into disease caused by nontypeable H. influenzae, as serotype d strains are not pathogens. In contrast, strains of nontypeable H. influenzae are the primary pathogens of chronic and recurrent otitis media in children. In addition, these organisms have an important role in acute otitis media in children as well as other respiratory diseases. Such strains must therefore contain a gene repertoire that differs from that of strain Rd. Elucidation of the differences between these genomes will thus provide insight into the pathogenic mechanisms of nontypeable H. influenzae. The genome of a representative nontypeable H. influenzae strain, 86-028NP, isolated from a patient with chronic otitis media was therefore sequenced and annotated. Despite large regions of synteny with the strain Rd genome, there are large rearrangements in strain 86-028NPs genome architecture relative to the strain Rd genome. A genomic island similar to an island originally identified in H. influenzae type b is present in the strain 86-028NP genome, while the mu-like phage present in the strain Rd genome is absent from the strain 86-028NP genome. Two hundred eighty open reading frames were identified in the strain 86-028NP genome that were absent from the strain Rd genome. These data provide new insight that complements and extends the ongoing analysis of nontypeable H. influenzae virulence determinants.

The staphylococcal accessory regulator (sar ) represses transcription of the Staphylococcus aureus collagen adhesin gene (cna ) in an agr‐independent manner

Comparison of Staphylococcus aureus strains carrying mutations inactivating the staphylococcal accessory regulator (sar ) and/or the accessory gene regulator (agr ) suggests that sar is the primary regulatory element controlling transcription of the collagen adhesin gene (cna ) and that the regulatory effect of sar is independent of the interaction between SarA and agr. To test this hypothesis, we cloned the regions encoding each of the overlapping sar transcripts, all of which include the sarA open reading frame (ORF), and introduced each clone into cna‐positive sar and agr mutants. The introduction of each clone restored the expected sar transcripts and the temporal pattern of sar transcription. The introduction of each clone also complemented the defect in cna transcription and restored collagen binding to wild‐type levels. This was true even when the clones were introduced into a sar/agr double mutant. These results confirm the hypothesis that the sar‐mediated regulation of cna transcription occurs via an agr‐independent pathway. Direct evidence supporting this hypothesis comes from electrophoretic mobility shift assays demonstrating that SarA exhibits high‐affinity binding to cis elements upstream of the cna structural gene. We also examined the correlation between sar transcription and the production of SarA. Western blot analysis of two wild‐type strains indicated that SarA was produced in indistinguishable amounts during both the exponential and the post‐exponential growth phases.

Characterization of the SarA virulence gene regulator of Staphylococcus aureus

Staphylococcus aureus is a potent human pathogen that expresses a large number of virulence factors in a temporally regulated fashion. Two pleiotropically acting regulatory loci were identified in previous mutational studies. The agr locus comprises two operons that express a quorum‐sensing system from the P2 promoter and a regulatory RNA molecule from the P3 promoter. The sar locus encodes a DNA‐binding protein that activates the expression of both agr operons. We have cloned the sarA gene, expressed SarA in Escherichia coli and purified the recombinant protein to apparent homogeneity. The purified protein was found to be dimeric in the presence and absence of DNA and to consist mostly of α‐helices. DNase I footprinting of SarA on the putative regulatory region cis to the agr promoters revealed three high‐affinity binding sites composed of two half‐sites each. Quantitative electrophoretic mobility shift assays (EMSAs) were used to derive equilibrium binding constants (KD) for the interaction of SarA with these binding sites. An unusual ladder banding pattern was observed in EMSA with a large DNA fragment including all three binding sites. Our data indicate that SarA regulation of the agr operons involves binding to multiple half‐sites and may involve other sites located downstream of the promoters.

Prevalence and chromosomal map location of Staphylococcus aureus adhesin genes.

Using genomic DNA from 25 unrelated strains and probes specific for each gene, we assessed the prevalence of the Staphylococcus aureus (Sa) adhesion genes cna, fnbA, fnbB, fib, clfA, fbpA, ebpS and map. All 25 strains encoded fib, clfA, ebpS, map and at least one of the fnb genes. fbpA and coa appeared to be allelic variants of the same gene with the fbpA variant being present in only four of 25 isolates. cna was present in 10 of 25 strains. Using Southern blot analysis of SmaI-digested genomic DNA resolved by pulsed-field gel electrophoresis, the adhesion genes were mapped to SmaI fragments A (ebpS), B (fib and clfA), C (fnbA/fnbB), E (fbpA), F (map) and G (cna). Despite variations in SmaI restriction profiles, co-localization of adhesin genes with genes known to map to specific SmaI fragments in the Sa 8325-4 chromosome strains suggests that the chromosomal location of each adhesin gene is conserved.

Genome Sequence of Edwardsiella ictaluri 93-146, a Strain Associated with a Natural Channel Catfish Outbreak of Enteric Septicemia of Catfish

Edwardsiella ictaluri is the cause of extensive mortalities and economic losses to the channel catfish industry of the southeast United States. Here we report the complete genome of Edwardsiella ictaluri 93-146. Whole-genome sequence analysis of E. ictaluri provides a tool for understanding the genomic regions specific to the species and the Edwardsiella genus.

Genome Sequence of the Fish Pathogen Flavobacterium columnare ATCC 49512

Flavobacterium columnare is a Gram-negative, rod-shaped, motile, and highly prevalent fish pathogen causing columnaris disease in freshwater fish worldwide. Here, we present the complete genome sequence of F. columnare strain ATCC 49512.

Genomic and bioinformatics analysis of human adenovirus type 37: New insights into corneal tropism

BackgroundHuman adenovirus type 37 (HAdV-37) is a major etiologic agent of epidemic keratoconjunctivitis, a common and severe eye infection associated with long-term visual morbidity due to persistent corneal inflammation. While HAdV-37 has been known for over 20 years as an important cause, the complete genome sequence of this serotype has yet to be reported. A detailed bioinformatics analysis of the genome sequence of HAdV-37 is extremely important to understanding its unique pathogenicity in the eye.ResultsWe sequenced and annotated the complete genome of HAdV-37, and performed genomic and bioinformatics comparisons with other HAdVs to identify differences that might underlie the unique corneal tropism of HAdV-37. Global pairwise genome alignment with HAdV-9, a human species D adenovirus not associated with corneal infection, revealed areas of non-conserved sequence principally in genes for the virus fiber (site of host cell binding), penton (host cell internalization signal), hexon (principal viral capsid structural protein), and E3 (site of several genes that mediate evasion of the host immune system). Phylogenetic analysis revealed close similarities between predicted proteins from HAdV-37 of species D and HAdVs from species B and E. However, virtual 2D gel analyses of predicted viral proteins uncovered unexpected differences in pI and/or size of specific proteins thought to be highly similar by phylogenetics.ConclusionThis genomic and bioinformatics analysis of the HAdV-37 genome provides a valuable tool for understanding the corneal tropism of this clinically important virus. Although disparities between HAdV-37 and other HAdV within species D in genes encoding structural and host receptor-binding proteins were to some extent expected, differences in the E3 region suggest as yet unknown roles for this area of the genome. The whole genome comparisons and virtual 2D gel analyses reported herein suggest potent areas for future studies.

Partial Analysis of the Genomes of Two Nontypeable Haemophilus influenzae Otitis Media Isolates

ABSTRACT In 1995, The Institute for Genomic Research completed the genomic sequence of a rough derivative of Haemophilus influenzae serotype d, strain KW20. This sequence, though extremely useful in understanding the basic biology of H. influenzae, has yet to provide significant insight into our understanding of disease caused by nontypeable H. influenzae (NTHI), because serotype d strains are not generally pathogens. In contrast, NTHI strains are frequently mucosal pathogens and are the primary pathogens of chronic otitis media as well as a significant cause of acute otitis media in children. Thus, it is of great importance to further understand their biology. We used a DNA-based microarray approach to identify genes present in a clinical isolate of NTHI that were absent from strain Rd. We also sequenced the genome of a second NTHI isolate from a child with chronic otitis media to threefold coverage and then used an array of bioinformatics tools to identify genes present in this NTHI strain but absent from strain Rd. These methods were complementary in approach and results. We identified, in both strains, homologues of H. influenzae lav, an autotransported protein of unknown function; tnaA, which encodes tryptophanase; as well as a homologue of Pasteurella multocida tsaA, which encodes an alkyl peroxidase that may play a role in protection against reactive oxygen species. We also identified a number of putative restriction-modification systems, bacteriophage genes and transposon-related genes. These data provide new insight that complements and extends our ongoing analysis of NTHI virulence determinants.

Human adenovirus type 19: genomic and bioinformatics analysis of a keratoconjunctivitis isolate.

Human adenovirus type 19 (HAdV-19) is a major etiologic agent of epidemic keratoconjunctivitis (EKC), a common and severe eye infection associated with long-term visual morbidity due to persistent corneal inflammation. Ironically, while the prototype strain of HAdV-19 does not cause eye infections, other isolates of the serotype have caused major outbreaks of EKC. Here we have sequenced a clinical isolate of HAdV-19 (HAdV-19 strain C) from a human patient with EKC. Global pairwise alignment of HAdV-19C to other HAdV species D serotypes identified areas of sequence divergence in the penton base (host cell internalization signal), hexon (principal viral capsid structural protein), E3 (site of immunomodulatory genes), and fiber (host cell-binding ligand) regions. Comparison of HAdV-19 strain C to the recently sequenced HAdV-37, another EKC causing serotype, identified sequence diversity in the penton base and hexon, but sequence conservation in the E3 and fiber regions. Elucidation of the HAdV-19C genome will facilitate future studies into the pathogenesis of EKC, and may shed light on the genetic determinants of corneal tropism.

Interactions of haemoglobin with the Neisseria meningitidis receptor HpuAB: the role of TonB and an intact proton motive force.

We have characterized the interaction of the Neis‐seria meningitidis TonB‐dependent receptor HpuAB with haemoglobin (Hb). Protease accessibility assays indicated that HpuA and HpuB are surface exposed, HpuB interacts physically with HpuA, and TonB energization affects the conformation of HpuAB. Binding assays using [125I]‐Hb revealed that the bipartite receptor has a single binding site for Hb (Kd≈ 150 nM). Competitive binding assays using heterologous Hbs revealed that HpuAB Hb recognition was not species specific. The binding kinetics of Hb to HpuAB were dramatically altered in a TonB– mutant and in wild‐type meningococci treated with the protonophore carbonylcyanide m‐chlorophenylhydrazone (CCCP), indicating that TonB and an intact proton motive force are required for normal Hb binding and release from HpuAB. Our results support a model in which both HpuA and HpuB are required to form a receptor complex in the outer membrane with a single binding site, whose structure and ligand interactions are significantly affected by the TonB‐mediated energy state of the receptor.