Abstract
BackgroundEvolutionary studies have been conducted that have investigated the chromosomal variance in the genus of Chlamydia. However, no all-encompassing genus-wide comparison has been performed on the plasmid. Therefore, there is a gap in the current knowledge on Chlamydia plasmid diversity.AimsThis project is aimed to investigate and establish the nature and extent of diversity across the entire genus of Chlamydia, by comparing the sequences of all currently available plasmid carrying strains.MethodsThe PUBMED database was used to identify plasmid sequences from all available strains that met the set quality criteria for their inclusion in the study. Alignments were performed on the 51 strains that fulfilled the criteria using MEGA X software. Following that Maximum Likelihood estimation was used to construct 11 phylogenetic trees of the whole plasmid sequence, the individual 8 coding sequences, the iteron and a chromosomal gene ompA as a comparator.ResultsThe genus-wide plasmid phylogeny produced three distinct lineages labelled as alpha, beta and gamma. Nineteen genotypes were found in the initial whole plasmid analysis. Their distribution was allocated as six C. pecorum, two C. pneumoniae, one C. gallinacea, one C. avium, one C. caviae, one C. felis, two C. psittaci, one C. trachomatis, one C. muridarum, and two C. suis. The chromosomal comparative gene ompA supported this distribution, with the same number of primary clades with the same species distribution. However, ompA sequence comparison resulted in fewer genotypes due to a reduced amount of available sequences (33 out of 51). All results were statistically significant.ConclusionThe results of this study indicate that the common bacterial ancestor of all the species had a plasmid, which has diverged over time. Moreover, it suggests that there is a strong evolutionary selection towards these species retaining their plasmids due to its high level of conservation across the genus, with the notable exception of C. pneumoniae. Furthermore, the evolutionary analysis showed that the plasmid and the chromosome have co-evolved.
Highlights
The Chlamydia are a distinct genus of pathogenic bacteria that can cause infections in humans and animals
Their distribution was allocated as six C. pecorum, two C. pneumoniae, one C. gallinacea, one C. avium, one C. caviae, one C. felis, two C. psittaci, one C. trachomatis, one C. muridarum, and two C. suis
C. pneumoniae is a major cause of community-acquired pneumonia in humans, while C. psittaci is the cause of parrot fever, which may present as atypical pneumoniae that can mimic typhoid fever, but is often asymptomatic [2]
Summary
The Chlamydia are a distinct genus of pathogenic bacteria that can cause infections in humans and animals. Within this genus there are currently eleven recognised species [1] namely: Chlamydia abortus, C. avium, C. caviae, C. felis, C. gallinacea, C. muridarum, C. pecorum, C. pneumoniae, C. psittaci, C. suis, and C. trachomatis. C. trachomatis and C. pneumoniae are the most common chlamydial infections in humans, but zoonotic infections of C. psittaci and C. abortus [1] occur. The remaining species have not been shown to cause disease in humans, but they can infect birds (C. avium and C. gallinacea), cats (C. felis), koalas (C. pecorum), rodents (C. muridarum) and swine (C. suis and C. pecorum).
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