Модель эволюционной оценки типов экосистем «паразит-хозяин» на примере хламидий семейства Chlamydiaceae и их естественных хозяев
Автор: Каримов М.З., Вафин Р.Р., Равилов Р.Х.
Рубрика: Ветеринария
Статья в выпуске: 2 т.226, 2016 года.
Бесплатный доступ
При анализе эволюции хламидий семейства Chlamydiaceae может быть использована хронологическая связь длины локусов генов, кодирующих синтез белков наружной мембраны (omp1 и omp2) данных микроорганизмов с ходом их эволюционного развития, с возможным уточнением взаимосвязи в последовательности зарождения таксонов паразитов и их хозяев.
Хламидии, паразит, хозяин, эволюция
Короткий адрес: https://sciup.org/14288840
IDR: 14288840 | УДК: 619:579.882:
Evolutionary model of ecosystem types “parasite-host” evaluation the example of chlamydiae of the family Chlamydiaceae and their natural hosts
When analyzing the evolution of chlamydieof family Chlamydiaceae can be used chronological link length gene loci coding for the synthesis of outer membrane proteins (omp1 and omp2) these microorganisms with the course of their evolution, with the possible specification of the relationship in the progression of genesis of taxa of parasites and their hosts.
Список литературы Модель эволюционной оценки типов экосистем «паразит-хозяин» на примере хламидий семейства Chlamydiaceae и их естественных хозяев
- Andersson, J.O. Insights into the evolutionary process of genome degradation/J.O. Andersson, S.G. Andersson//Curr. Opin. Genet. Dev. -1999. -V. 9. -P. 664-671.
- Andersson, S.G. The genome sequence of Rickettsia prowazekiiand the origin of mitochondria/S.G. Andersson, A. Zomorodipour, J.O. Andersson, T. Sicheritz-Ponten, U.C. Alsmark, R.M. Podowski et al.//Nature. -1998. -V. 396. -P. 133-140.
- Ashford, R.W. Parasites as indicators of human biology and evolution/R.W. Ashford//J. Med. Microbiol. -2000. -V. 49. -P. 771-772.
- Bavoil, P. Role of disulfide bonding in outer membrane structure and permeability in Chlamydia trachomatis/P. Bavoil, A. Ohlin, J. Schachter//Infect. Immun. -1984. -V. 44.-N. 2. -P. 479-485.
- Belland, R.J. Chlamydia trachomatis cytotoxicity associated with complete and partial cytotoxin genes/R.J. Belland, M.A. Scidmore, D.D. Crane, D.M. Hogan, W. Whitmire, G. McClarty et al.//PNAS. -2001. -V. 98. -N. 24. -P. 13984-13989.
- Berger, L.Chlamydia pneumoniae in a free-ranging giant barred frog (Mixophyesiteratus) from Australia/L. Berger, K. Volp, S. Mathews, R. Speare, P. Timms//J. Clin. Microbiol. -1999. -V. 37. -N. 7. -P. 2378-2380.
- Bodetti, T.J.Molecular evidence to support the expansion of the hostrange of Chlamydophila pneumoniae to include reptiles as well as humans, horses, koalas and amphibians/T.J. Bodetti, E. Jacobson, C. Wan, L. Hafner, A. Pospischil, K. Rose et al.//Syst. Appl. Microbiol. -2002. -V. 25. -N. 1. -P. 146-152.
- Brunelle, B.W. The ompAGene in Chlamydia trachomatis Differs in Phylogeny and Rate of Evolution from Other Regions of the Genome/B.W. Brunelle, G.F. Sensabaugh//Infect. Immun. -2006. -V. 74. -N. 1. -P. 578-585.
- Bush, R.M.Molecular evolution of the Chlamydiaceae/R.M. Bush, K.D. Everett//Int. J. Syst. Evol. Microbiol. -2001. -V. 51. -P. 203-220.
- Caldwell, H.D.Polymorphisms in Chlamydia trachomatis tryptophan synthase genes differentiate between genital and ocular isolates/H.D. Caldwell, H. Wood, D. Crane, R. Bailey, R.B. Jones, D. Mabey et al.//J. Clin. Invest. 2003. -V. 111. -N. 11. -P. 1757-1769.
- Canderle, J.Chlamydophila pneumoniae antibodies in Swine/J. Canderle, L Pospisil, H. Stroblova, Z. Veznik//ACTA VET. BRNO. -2005. -V. 74. -P. 81-86.
- Cavalier-Smith, T. Economy, speed and size matter: evolutionary forces driving nuclear genome miniaturization and expansion/T. Cavalier-Smith//Ann. Bot. (Lond.). -2005. -V. 95 -N. 1. -P. 147-75.
- Devereaux, L.N.Molecular evidence for novel chlamydial infections in the koala (Phascolarctoscinereus)/L.N. Devereaux, A. Polkinghorne, A. Meijer, P. Timms//Syst. Appl. Microbiol. -2003. -V. 26. -N. 2. -P. 245-253.
- Dufresne, A. Accelerated evolution associated with genome reduction in a free-living prokaryote/A. Dufresne, L. Garczarek, F. Partensky//Genome Biol. -2005. -V. 6. -N. 2. -R. 14.
- Fahrenholz. H. Ectoparasiten und Abstammungslehre/H. Fahrenholz//Zool. Anz. (Leipzig). -1913. -V. 41. -P. 371-373.
- Hafner, M.S. Phylogenetic trees support the coevolution of parasites and their hosts/M.S. Hafner, S.A. Nadler//Nature. -1988. -V. 332. -P. 258-259.
- Hartley, J.C. PCR detection and molecular identification of Chlamydiaceae species/J.C. Hartley, S. Kaye, S. Stevenson, J. Bennett, G. Ridgway//J. Clin. Microbiol.-2001. -V. 39 -N. 9. -P. 3072-3079.
- Kaltenboeck, B. Structures of and allelic diversity and relationships among the major outer membrane protein (ompA) genes of the four chlamydial species/B. Kaltenboeck, K.G. Kousoulas, J. Storz//J. Bacteriol. -1993. -V. 175. -N. 2. -P. 487-502.
- Lawrence, J.G. Molecular and evolutionary relationships among enteric bacteria/J.G. Lawrence, H. Ochman, D. Hartl//J. Gen. Microbiol. -1991. -V. 137. -P. 1911-1921.
- Liuba, P. Acute Chlamydia pneumoniae infection causes coronary endothelial dysfunction in pigs/P. Liuba, E. Pesonen, L. Paakkari, S. Batra, A. Forslid, P. Kovanen et al.//Atherosclerosis. -2003. -V. 167. -N. 2. -P. 215-222.
- Millman, K.L. Recombination in the ompA gene but not the omcB gene of Chlamydia contributes to serovar-specific differences in tissue tropism, immune surveillance, and persistence of the organism/K.L. Millman, S. Tavare, D. Dean//J. Bacteriol. -2001. -V. 183. -N. 20. -P. 5997-6008.
- Mygind, P. Analysis of the humoral immune response to Chlamydia outer membrane protein 2/P. Mygind, G. Christiansen, K. Persson, S. Birkelund//Clin. Diagn. Lab. Immunol. -1998. -V. 5. -N. 3.-P. 313-318.
- Paterson, A.M.Analytical approaches to measuring cospeciation of host and parasites: through a glass, darkly/A.M. Paterson, J. Banks//International Journal for Parasitology. -2001. -V. 31. -P. 1012-1022.
- Petrov, D.A. DNA loss and evolution of genome size in Drosophila/D.A. Petrov//Genetica. -2002. -V. 115. -P. 81-91.
- Read, T.D. Genome sequences of Chlamydia trachomatis MoPn and Chlamydia pneumoniae AR39/T.D. Read, R.C. Brunham, C. Shen, S.R. Gill, J.F. Heidelberg, O. White et al.//Nucleic Acids Res. -2000. -V. 28. -N. 6. -P. 1397-1406.
- Sakharkar, K.R. Strategies for genome reduction in microbial genomes/K.R. Sakharkar, V.T. Chow//Genome Inform.-2005. -V. 16. -N. 2. -P. 69-75.
- Sako, T. Chlamydial infection in canine atherosclerotic lesions/T. Sako, T. Takahashi, K. Takehana, E. Uchida, T. Nakade, T. Umemura et al.//Atherosclerosis. -2002. -V. 162. -N. 2. -P. 253-259.
- Stothard, D.R. Phylogenetic Analysis of the Chlamydia trachomatis Major Outer Membrane Protein and Examination of Potential Pathogenic Determinants/D.R. Stothard, G. Boguslawski, R.B. Jones//Infect. Immun. -1998. -V. 66. -N. 8. -P. 3618-3625.
- Schneider, A. Covariation of mitochondrial genome size with gene lengths: evidence for gene length reduction during mitochondrial evolution/A. Schneider, D. Ebert//J. Mol. Evol. -2004. -V. 59. -N. 1.-P. 90-96.
- Schwab, I.R. Colour me ultraviolet/I.R. Schwab, C.A. Arrese//British Journal of Ophthalmology. -2005. -V. 89. -P. 399.
- Thomas, J.W. Comparative analyses of multi-species sequences from targeted genomic regions/J.W. Thomas, J.W. Touchman, R.W. Blakesley, G.G. Bouffard, S.M. Beckstrom-Sternberg, E.H. Margulies et al.//Nature. -2003. -V. 424. -P. 788-793.
- Van Loock, M. Missing links in the divergence of Chlamydophilaabortus from Chlamydophilapsittaci/M. Van Loock, D. Vanrompay, B. Herrmann, J. Vander Stappen, G. Volckaert, B.M. Goddeeris et al.//Int. J. Syst. Evol. Microbiol. -2003. -V. 53. -P. 761-770.
- Woese. C.R. Bacterial evolution/C.R. Woese//Microbiol. Rev. -1987. -V. 51. -P. 221-271.
- Zomorodipour, A. Obligate intracellular parasites: Rickettsia prowazekii and Chlamydia trachomatis/A. Zomorodipour, S.G. Andersson//FEBS Lett. -1999. -V. 452. -P. 11-15.
