Christopher T. Lewis

Meeting report: Fungal its workshop (october 2012)

This report summarizes a meeting held in Boulder, CO USA (19–20 October 2012) on fungal community analyses using ultra-high-throughput sequencing of the internal transcribed spacer (ITS) region of the nuclear ribosomal RNA (rRNA) genes. The meeting was organized as a two-day workshop, with the primary goal of supporting collaboration among researchers for improving fungal ITS sequence resources and developing recommendations for standard ITS primers for the research community.

The Quest for a General and Reliable Fungal DNA Barcode

DNA sequences are key elements for both identification and classification of living organisms. Mainly for historical reasons, a limited number of genes are currently used for this purpose. From a mathematical point of view, any DNA segment, at any location, even outside of coding regions and even if they do not align, could be used as long as PCR primers could be designed to amplify them. This paper describes two methods to search genomic data for the most efficient DNA segments that can be used for identification and classification.

Identification of Fungal DNA Barcode Targets and PCR Primers Based on Pfam Protein Families and Taxonomic Hierarchy

DNA barcoding is the application of DNA sequences of standardized genetic markers for the identification of eukaryotic organisms. We attempted to identify alternative candidate barcode gene targets for the fungal biota from available fungal genomes using a taxonomy-aware processing pipeline. Putative-protein coding sequences were matched to Pfam protein families and aligned to reference Pfam accessions. Conserved sequence blocks were identified in the resulting alignments and degenerate primers were designed. The processing pipeline is described and the resulting candidate gene targets are discussed. The pipeline allows analysis of subsets at various hierarchical, taxonomic levels (selectable by GenBank taxonomy ID or scientific name) of the available reference data, allowing discrete taxonomic groups to be combined into a single subset, or for subordinate taxa to be excluded from the analysis of higher-level taxa. Putative degenerate primer pairs were designed as high as the superkingdom rank for the set of organisms included in the analysis. The identified targets have essential housekeeping functions, like the well known phylogenetic or barcode markers, and most have a better resolution potential to differentiate species among fully sequenced genomes than the most presently used markers. Some of the commonly used species-level phylogenetic markers for fungi, especially tef1-� and rpb2, were not recovered in our analysis because of their existence in multiple copies in single organisms, and because Pfam families do not always correlate with complete proteins.

Draft Genome Sequences of Three Arcobacter Strains of Pig and Dairy Cattle Manure Origin

ABSTRACT The genus Arcobacter has been associated with human illness and fecal contamination by humans and animals. Here, we announce the draft genome sequences of three strains of Arcobacter species cultured from pig and dairy cattle manure tanks. This information will assist in the characterization of features related to host specificities and identify potential pathogenic health risks to humans and animals.

Draft Genome Sequence of Arcobacter cibarius Strain LMG21996T, Isolated from Broiler Carcasses

ABSTRACT The draft genome sequence of Arcobacter cibarius strain LMG21996T, isolated from chicken carcasses, is reported here. The draft genome consists of 2.2 Mbp, with a 27.12% G+C content. A total of 2,179 protein-coding genes, 46 tRNA genes, and 15 rRNAs have been identified and annotated.

Draft Genome Sequence of Pantoea ananatis Strain LMG 2665T, a Bacterial Pathogen of Pineapple Fruitlets

ABSTRACT We report the draft genome sequence of Pantoea ananatis LMG 2665T, the bacterial causal agent of pineapple fruitlet rot.

Draft genome sequences of two arcobacter strains isolated from human feces.

ABSTRACT Arcobacter species are members of the family Campylobacteraceae and are considered emerging enteropathogens and potential zoonotic agents. Here, we report the draft genome sequences of two Arcobacter strains isolated from human feces in an effort to provide further genetic resources for understanding the pathogenic dynamics and diversity of this important genus.

Draft Genome Sequences of Ralstonia solanacearum Race 3 Biovar 2 Strains with Different Temperature Adaptations

ABSTRACT Ralstonia solanacearum race 3 biovar 2 (R3bv2) causes brown rot of potato in countries with temperate climates. Here, we report two draft genome sequences of R. solanacearum R3bv2 NCPPB909 and CFIA906 with different temperature adaptations. Analysis of these genome sequences will provide detailed insight on virulence, functionality, and plant/pest interactions of this widely distributed and regulated pathogen.

Draft Genome Sequence of Alternaria alternata ATCC 34957

ABSTRACT We report the draft genome sequence of Alternaria alternata ATCC 34957. This strain was previously reported to produce alternariol and alternariol monomethyl ether on weathered grain sorghum. The genome was sequenced with PacBio technology and assembled into 27 scaffolds with a total genome size of 33.5 Mb.

Draft Genome Sequences for Canadian Isolates of Pectobacterium carotovorum subsp. brasiliense with Weak Virulence on Potato

ABSTRACT Pectobacterium carotovurum subsp. brasiliense causes soft rot and blackleg diseases on potato. Here, we report the draft genome sequences of three weakly virulent P. carotovurum subsp. brasiliense strains isolated in Canada. Analysis of these genome sequences will help to pinpoint differences in virulence among P. carotovurum subsp. brasiliense strains from tropical/subtropical and temperate regions, such as Canada and United States. A small number of key factors for adaptation to this bacteriums specific environmental niche were also evaluated.