Anaplasmosis is a tick-borne rickettsial disease caused by Anaplasma marginale, A. centrale, A. phagocytophilum, A. bovis, A. ovis and A. platys. Understanding the phylogenetic relations among these species is fundamental to perform an accurate identification and an informative intra-specific analysis. Heat shock groESL operon is frequently employed in phylogenetic analysis of Anaplasma species and, for the most cases, the use of partial sequences of this operon is randomly done without knowing the most appropriate regions to be used either in species attribution or in intra-specific diversity analysis. In this study, on the basis of all fully and nearly complete groESL sequences available in the GenBank, we firstly selected a minimum partial length sequence which allows species delineation and gives a similar topology to that found by analyzing the complete sequence. By using other in silico analyses, we obtained two minimal partial sequences that are the most interesting to describe intra-specific diversity within A. ovis and A. centrale. Our results raise concern on the use of randomly selected partial sequences of groESL operon employed for the detection and the characterization of Anaplasma species and provide additional background about minimum length groESL operon required for Anaplasma species attribution and strains diversity analysis.
Keywords: Anaplasma species attribution; Computational selection; Heat shock groESL operon; Minimum length partial sequences; Strain diversity analysis.
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