The genotyping potential of the Mycoplasma synoviae vlhA gene.

Mycoplasma synoviae (MS) continues to cause significant losses to poultry producers, and studying the epizootiology of infection is an important component of MS control. The partial variable lipoprotein hemagglutinin A (vlhA) gene is the only genomic target identified so far for MS sequence typing. The vlhA gene codes for two variable cell surface proteins, lipoprotein and hemagglutinin, and the proposed mechanism for the variation is gene conversion between a single expressed gene and an array of pseudogenes. The upstream portion of the vlhA gene is present in the genome in a single copy (not present in the pseudogenes), and it is the only part of the gene that can be used for targeted sequence typing. However, the 3' end of the vlhA single copy" as well as this region's discriminatory potential for genotyping purposes has not been established. The purpose of this study was to identify the exact limit and the genotyping potential of the vlhA single copy region. New PCR assays were developed to amplify the entire conserved region and part of the variable region of the vlhA gene. Amplification and sequencing were performed on a variety of MS samples and on in vitro sequential generations of a standard MS strain. Sequence analyses determined the site and composition of the most proximal sequence variation that could be attributed to a gene conversion event, and they predicted the end point of the vlhA single copy region. The results indicated that a currently available "revised Hammond" PCR spans the whole single copy of the vlhA gene and exploits the full genotyping potential of this MS genomic target. In addition, this study allows interesting insight into the gene conversion mechanism of MS and offers the opportunity for further investigation this mechanism in mycoplasmas.

Revised Mycoplasma synoviae vlhA PCRs.

Mycoplasma synoviae (MS) is an important pathogen of chickens and turkeys. In recent years sequence analysis of the partial MS variable lipoprotein and hemagglutinin A (vlhA) gene PCR product has been utilized routinely for MS strain genotyping. Several PCR assays have been proposed for the amplification of the conserved upstream region of the MS vlhA gene; however, in several clinical instances the published assays failed to generate vlhA PCR products from confirmed MS-positive cases. These occurrences hindered our capability to genotype those cases. In silico analysis of the published MS vlhA PCRs raised concerns, which were addressed by the design of revised MS vlhA PCRs. The published and revised assays were tested for their relative sensitivity and specificity with laboratory and clinical MS-positive samples. One of the revised MS vlhA PCRs (revised Hong) was demonstrated to be more sensitive and specific, and amplified all clinical samples analyzed in this study.

Churchill: an ultra-fast, deterministic, highly scalable and balanced parallelization strategy for the discovery of human genetic variation in clinical and population-scale genomics.

While advances in genome sequencing technology make population-scale genomics a possibility, current approaches for analysis of these data rely upon parallelization strategies that have limited scalability, complex implementation and lack reproducibility. Churchill, a balanced regional parallelization strategy, overcomes these challenges, fully automating the multiple steps required to go from raw sequencing reads to variant discovery. Through implementation of novel deterministic parallelization techniques, Churchill allows computationally efficient analysis of a high-depth whole genome sample in less than two hours. The method is highly scalable, enabling full analysis of the 1000 Genomes raw sequence dataset in a week using cloud resources. http://churchill.nchri.org/.

Clonal dissemination of Escherichia coli O157:H7 subtypes among dairy farms in northeast Ohio.

To ascertain the extent to which indistinguishable strains of Escherichia coli O157:H7 are shared between farms, molecular characterization was performed on E. coli O157:H7 isolates recovered during a longitudinal study of 20 dairy farms in northeast Ohio. Of the 20 dairy farms sampled, 16 were located in a primary area and 4 were located in two other distant geographical areas. A total of 92 E. coli O157:H7 isolates obtained from bovine fecal samples, water trough sediment samples, free-stall bedding, and wild-bird excreta samples were characterized. Fifty genetic subtypes were observed among the isolates using XbaI and BlnI restriction endonucleases. Most restriction endonuclease digestion profiles (REDPs) were spatially and temporally clustered. However, four REDPs from multiple sources were found to be indistinguishable by pulsed-field gel electrophoresis between four pairs of farms. The geographical distance between farms which shared an indistinguishable E. coli O157:H7 REDP ranged from 9 to 50 km, and the on-farm sources sharing indistinguishable REDPs included cattle and wild bird feces and free-stall bedding. Within the study population, E. coli O157:H7 REDP subtypes were disseminated with considerable frequency among farms in close geographic proximity, and nonbovine sources may contribute to the transmission of this organism between farms.