Christian Pitulle

Phylogeny of Rapidly Growing Members of the Genus Mycobacterium

The 16S rRNAs from nine rapidly growing Mycobacterium species were partially sequenced by using the dideoxynucleotide-terminated, primer extension method with cDNA generated by reverse transcriptase. The sequences were aligned with 47 16S rRNA or DNA sequences that represented 30 previously described and 5 undescribed species of the genus Mycobacterium, and a dendrogram was constructed by using equally weighted distance values. Our results confirmed the phylogenetic separation of the rapidly and slowly growing mycobacteria and showed that the majority of the slowly growing members of the genus represent the most recently evolved organisms. The 24 strains which represented 21 rapidly growing species constituted several sublines, which were defined by the following taxa: (i) Mycobacterium neoaurum and M. diernhoferi, (ii) M. gadium, (iii) the M. chubuense cluster, (iv) the M. fortuitum cluster, (v) M. kommossense, (vi) M. sphagni, (vii) M. fallax and M. chitae, (viii) M. aurum and M. vaccae, (ix) the M. flavescens cluster, and (x) M. chelonae subsp. abscessus. Our phylogenetic analysis confirmed the validity of the phenotypically defined species mentioned above, but our conclusions disagree with most of the conclusions about intrageneric relationships derived from numerical phenetic analyses.

Coinfection with Three Ehrlichia Species in Dogs from Thailand and Venezuela with Emphasis on Consideration of 16S Ribosomal DNA Secondary Structure

ABSTRACT As part of a larger study to investigate tick-borne infections in dogs from Thailand and Venezuela, documentation of coinfection with three Ehrlichia species in two dogs, one from each country, became the focus of the present study. Although neither dog had clinical signs attributable to ehrlichiosis, both dogs were anemic and neutropenic and the Thai dog was thrombocytopenic. Genus- and species-specific PCR targeting the 16S rRNA genes indicated that both dogs were coinfected with Ehrlichia canis, E. platys, and E. equi. To our knowledge, these results provide the first molecular documentation for the presence ofE. equi in dogs from these countries. Using universal bacterial PCR primers, one nearly full-length 16S rRNA gene could be amplified from each dog. The sequences were identical to each other and almost identical to that of E. platys (AF156784 ), providing the first E. platys 16S ribosomal DNA (rDNA) sequences reported from these two geographically divergent countries. To determine whether these sequence differences allow differentiation between these two strains and other published 16S rDNA E. platys sequences, we performed a phylogenetic analysis of the rRNA, incorporating the consideration of secondary structure.

Bartonella quintana in Cynomolgus Monkey (Macaca fascicularis)

We identified a Bartonella quintana strain by polymerase chain reaction amplification, cloning, and sequencing of DNA extracted from lysed erythrocytes and cultured colonies grown from peripheral blood collected from a captive-bred cynomolgus monkey (Macaca fascicularis). This report describes naturally acquired B. quintana infection in a nonhuman primate.

Investigation of the phylogenetic relationships within the genus Bartonella based on comparative sequence analysis of the rnpB gene, 16S rDNA and 23S rDNA

A variety of genes and analytical methods have been applied to the study of phylogenetic relationships within the genus Bartonella, but so far the results have been inconsistent. While previous studies analysed single protein-encoding genes, we have analysed an alignment containing the sequences of three important phylogenetic markers, RNase P RNA, 16S rRNA and 23S rRNA, merged by catenation, to determine the phylogenetic relationships within the genus Bartonella. The dataset described here comprises 13 different Bartonella strains, including the seven strains that are known to be human pathogens. A variety of algorithms have been used to construct phylogenetic trees based on the combined alignment and, for comparison purposes, each individual gene. Trees generated from the catenated alignment are more consistent (independent of algorithm) and robust (higher bootstrap support). It is suggested that a phylogenetic analysis incorporating the RNase P RNA, 16S rRNA and 23S rRNA be used to study the phylogenetic relationships within the genus Bartonella.

Differentiation of Ehrlichia platys and E. equi infections in dogs by using 16S ribosomal DNA-based PCR.

ABSTRACT We have encountered a previously unrecognized specificity problem when using the small-subunit ribosomal DNA (16S rDNA)-based PCR primers recommended for use in the identification of Ehrlichia equi in clinical samples. These PCR primers annealed toE. platys 16S rDNA in blood samples containing high levels of E. platys organisms. Therefore, we designed and tested new PCR primers for the identification of E. equi.

A low molecular weight artificial RNA of unique size with multiple probe target regions

Artificial RNAs (aRNAs) containing novel sequence segments embedded in a deletion mutant of Vibrio proteolyticus 5S rRNA have previously been shown to be expressed from a plasmid borne growth rate regulated promoter in E. coli. These aRNAs accumulate to high levels and their detection is a promising tool for studies in molecular microbial ecology and in environmental monitoring. Herein a new construct is described which illustrates the versatility of detection that is possible with aRNAs. This 3xPen aRNA construct carries a 72 nucleotide insert with three copies of a unique 17 base probe target sequence. This aRNA is 160 nucleotides in length and again accumulates to high levels in the E. coli cytoplasm without incorporating into ribosomes. The 3xPen aRNA illustrates two improvements in detection. First, by appropriate selection of insert size, we obtained an aRNA which provides a unique and hence, easily quantifiable peak, on a high resolution gel profile of low molecular weight RNAs. Second, the existence of multiple probe targets results in a nearly commensurate increase in signal when detection is by hybridization. These aRNAs are naturally amplified and carry sequence segments that are not found in known rRNA sequences. It thus may be possible to detect them directly. An experimental step involving RT-PCR or PCR amplification of the gene could therefore be avoided.

Capnocytophaga sp. Isolated from a Cat with Chronic Sinusitis and Rhinitis

ABSTRACT A Capnocytophaga sp. was inadvertently isolated from a cat with chronic sinusitis and rhinitis when cytopathic effects were observed in Crandall-Reese feline kidney cells that had been inoculated with oropharyngeal swab samples. Although Capnocytophaga spp. are of considerable zoonotic importance, their clinical relevance for dogs or cats has not been established. However, failure to do so may be attributed to the infrequent use of specialized isolation techniques that are required to grow Capnocytophaga spp. To our knowledge, successful isolation of these organisms from a cat with nasopharyngeal disease has not been reported.