Phylogenetic analysis Phylogenetic analysis was conducted using M

Phylogenetic analysis Phylogenetic analysis was conducted using MEGA4 software PF477736 research buy [72]. The evolutionary history of mycobacterial rhomboids was determined using the Neighbor-Joining method. The percentage of replicate trees in which the associated taxa clustered together was determined using the Bootstrap test (1000 replicates). The evolutionary distances were computed using the Poisson correction method and are in the units of the number of amino acid substitutions per site. All positions containing gaps and

missing data were eliminated from the dataset (complete deletion option). For comparison of evolutionary history, trees were also constructed using “”Minimum Evolution”" and “”Maximum Parsimony”". Functional predictions To predict possible roles for mycobacterial rhomboids, sequences

were analyzed at the KEGG database [51] for the genome arrangement, presence of extra protein domains, nature of gene clusters, orthologs and paralogs. Other parameters used to glean functions from mycobacterial rhomboid sequences included analyzing their topologies. To predict functional relatedness among genes within mycobacterial rhomboid clusters, sequences in the Eltanexor supplier clusters were Bafilomycin A1 ic50 aligned by ClustalW, and Neighbor-Joining trees deduced using default settings. Acknowledgements This project was funded in part by the National Institutes of Health (Grants # R03 AI062849-01 and R01 AI075637-02 to MLJ); the Tuberculosis Research Unit (TBRU), established with Federal funds from the United Sates National Institutes of Allergy and Infectious Diseases & the United States National Institutes of Health and Human Services, under Contract Nos. NO1-AI-95383

and HHSN266200700022C/NO1-AI-70022; and with training support to DPK from the Fogarty International Center through Clinical Operational & Health Services Research (COHRE) at the JCRC, Kampala, Uganda (award # U2RTW006879). We thank Ms Geraldine Nalwadda (Dept of Medical Microbiology, MakCHS), Mr. Nelson Kakande and Ms Regina Namirembe (COHRE secretariat, JCRC, Kampala) for administrative assistance. Special thanks to the staff at the TB culture laboratory, JCRC, Kampala; Dr Charles Masembe, Faculty of Science, Makerere University, for helping with phylogenetics; Dr. Peter triclocarban Sander, for providing M. tuberculosis and M. bovis BCG strains; and Dr Julius Okuni, Faculty of Veterinary Medicine, Makerere University, for providing M. avium subsp. Paratuberculosis strain. Electronic supplementary material Additional file 1: The topology and location of catalytic residues in mycobacterial rhomboid protease 1 (Rv0110 orthologs). As in rho-1, the catalytic residues are located in TMH4 (Gly199 and Ser201) and TMH6 (His254), while His145, His150 and Asn154 are in TMH2. (PDF 59 KB) Additional file 2: The topology and location of catalytic residues in rho-1 of Drosophila. As in mycobacterial rhomboid protease 1, the catalytic residues are located in TMH4 (Gly199 and Ser201) and TMH6 (His254), while His145, His150 and Asn154 are in TMH2.

Comments are closed.