Molecular evolution of the Chlamydiaceae

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Molecular evolution of the Chlamydiaceae

RM Bush and KDE Everett
Department of Ecology and Evolutionary Biology, University of California, Irvine, CA 92697, USA

Phylogenetic analyses of surface antigens and other chlamydial proteins were used to reconstruct the evolution of the Chlamydiaceae. Trees for all five coding genes [the major outer-membrane protein (MOMP), GroEL chaperonin, KDO-transferase, small cysteine-rich lipoprotein and 60 kDa cysteine-rich protein] supported the current organization of the family Chlamydiaceae, which is based on ribosomal, biochemical, serological, ecological and DNA--DNA hybridization data. Genetic distances between some species were quite large, so phylogenies were evaluated for robustness by comparing analyses of both nucleotide and protein sequences using a variety of algorithms (neighbour-joining, maximum-likelihood, maximum-parsimony with bootstrapping, and quartet puzzling). Saturation plots identified areas of the trees in which factors other than relatedness may have determined branch attachments. All nine species were clearly differentiated by distinctness ratios calculated for each gene. The distribution of virulence traits such as host and tissue tropism were mapped onto the consensus phylogeny. Closely related species were no more likely to share virulence characters than were more distantly related species. This phylogenetically disjunct distribution of virulence traits could not be explained by lateral transfer of the genes we studied, since we found no evidence for lateral gene transfer above the species level. One interpretation of this observation is that when chlamydiae gain access to a new niche, such as a new host or tissue, significant adaptation ensues and the virulence phenotype of the new species reflects adaptation to its environment more strongly than it reflects its ancestry.

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				S. L. Mitchell, B. J. Wolff, W. L. Thacker, P. G. Ciembor, C. R. Gregory, K. D. E. Everett, B. W. Ritchie, and J. M. Winchell Genotyping of Chlamydophila psittaci by Real-Time PCR and High-Resolution Melt Analysis J. Clin. Microbiol., January 1, 2009; 47(1): 175 - 181. [Abstract] [Full Text] [PDF]

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				Z. Liu, R. Rank, B. Kaltenboeck, S. Magnino, D. Dean, L. Burall, R. D. Plaut, T. D. Read, G. Myers, and P. M. Bavoil Genomic Plasticity of the rrn-nqrF Intergenic Segment in the Chlamydiaceae J. Bacteriol., March 1, 2007; 189(5): 2128 - 2132. [Abstract] [Full Text] [PDF]

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				G. A. Somerville, B. Said-Salim, J. M. Wickman, S. J. Raffel, B. N. Kreiswirth, and J. M. Musser Correlation of Acetate Catabolism and Growth Yield in Staphylococcus aureus: Implications for Host-Pathogen Interactions Infect. Immun., August 1, 2003; 71(8): 4724 - 4732. [Abstract] [Full Text] [PDF]

				M. Van Loock, D. Vanrompay, B. Herrmann, J. Vander Stappen, G. Volckaert, B. M. Goddeeris, and K. D. E. Everett Missing links in the divergence of Chlamydophila abortus from Chlamydophila psittaci Int J Syst Evol Microbiol, May 1, 2003; 53(3): 761 - 770. [Abstract] [Full Text] [PDF]

				E. P. C. Rocha, O. Pradillon, H. Bui, C. Sayada, and E. Denamur A new family of highly variable proteins in the Chlamydophila pneumoniae genome Nucleic Acids Res., October 15, 2002; 30(20): 4351 - 4360. [Abstract] [Full Text] [PDF]

				S. Poppert, A. Essig, R. Marre, M. Wagner, and M. Horn Detection and Differentiation of Chlamydiae by Fluorescence In Situ Hybridization Appl. Envir. Microbiol., August 1, 2002; 68(8): 4081 - 4089. [Abstract] [Full Text] [PDF]

				E. Griffiths and R. S. Gupta Protein signatures distinctive of chlamydial species: horizontal transfers of cell wall biosynthesis genes glmU from archaea to chlamydiae and murA between chlamydiae and Streptomyces Microbiology, August 1, 2002; 148(8): 2541 - 2549. [Abstract] [Full Text] [PDF]

				J. Lenart, A. A. Andersen, and D. D. Rockey Growth and Development of Tetracycline-Resistant Chlamydia suis Antimicrob. Agents Chemother., August 1, 2001; 45(8): 2198 - 2203. [Abstract] [Full Text] [PDF]