Email this article GENOTYPIC DIFFERENCES BETWEEN CORYNEBACTERIUM DIPHTHERIAE BIOVAR GRAVIS AND MITIS STRAINS
- Authors: Borisova O.Y.1, Volozhantsev N.V2, Melnikov V.G3, Mazurova I.K1, Kombarova S.Y.1, Aleshkin V.A1
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Affiliations:
- Gabrichevsky Moscow Research Institute of Epidemiology and Microbiology, Moscow, Russia
- State Scientific Centre of Applied Microbiology and Biotechnology, Obolensk, Moscow region, Russia
- International Scientific-Technical Centre, Moscow, Russia
- Issue: Vol 90, No 3 (2013)
- Pages: 24-31
- Section: Articles
- Submitted: 09.06.2023
- Published: 15.06.2013
- URL: https://microbiol.crie.ru/jour/article/view/13808
- ID: 13808
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Abstract
Aim. Study structure of a genetic determinant of amylase activity (amy gene) in Corynebacterium diphtheriae biovar gravis and mitis strains. Materials and methods. 87 C. diphtheriae strains (31 gravis biovar strains and 56 mitis biovar strains) as well as C. diphtheriae PW8 strain were analyzed to detect structural features of C. diphtheriae strains of various biovars. 10 pairs of primers were used in PCR that flank mutually overlapping regions within DIP0357 locus as well as additional primers that flank DIP0353 - DIP0354, DIP0357 and DIP0358 loci. Results. All the C. diphtheriae biovar gravis strains were established to contain a full-size DIP0357 locus (amy gene) whereas in all the mitis biovar strains this genome fragment is absent. All the studied C. diphtheriae biovar gravis strains do not have significant changes within DIP0354 - DIP0357 loci (amy gene) whereas in genome of 57 studied C. diphtheriae biovar mitis strains the major part of this fragment including the complete nucleotide sequence of amy gene is absent. Conclusion. C. diphtheriae biovar gravis strains have a genetically determined ability to produce amylase that can be viewed as an additional pathogenicity factor giving microorganisms wider capabilities to colonize the mucous membrane of oropharynx.
About the authors
O. Yu Borisova
Gabrichevsky Moscow Research Institute of Epidemiology and Microbiology, Moscow, Russia
N. V Volozhantsev
State Scientific Centre of Applied Microbiology and Biotechnology, Obolensk, Moscow region, Russia
V. G Melnikov
International Scientific-Technical Centre, Moscow, Russia
I. K Mazurova
Gabrichevsky Moscow Research Institute of Epidemiology and Microbiology, Moscow, Russia
S. Yu Kombarova
Gabrichevsky Moscow Research Institute of Epidemiology and Microbiology, Moscow, Russia
V. A Aleshkin
Gabrichevsky Moscow Research Institute of Epidemiology and Microbiology, Moscow, Russia
References
- Борисова О.Ю. Молекулярно-генетические особенности структуры генов патогенности возбудителей коклюша и дифтерии; совершенствование лабораторной диагностики при этих инфекциях. Автореф. дисс. д-ра. мед. наук. 2009.
- Комбарова С.Ю. Микробиологический молекулярно-генетический мониторинг возбудителя дифтерийной инфекции. Автореф. дисс. д-ра. биол. наук. 2007.
- Комбарова С.Ю., Борисова О.Ю., Мельников В.Г. и др. Наблюдение за циркуляцией штаммов C.diphtheriae, различающихся по признаку токсигенности. Медицинский альманах. 2009, 2: 108-111.
- Корженкова М.П. Клиника дифтерии в период высокой и низкой заболеваемости. Вакцинация. 2006, 1 (43): 4-6.
- Мазурова И.К. Комплексная система лабораторной диагностики и наблюдения за возбудителем дифтерии. Автореф. дисс. д-ра. мед. наук. 1993.
- Мазурова И.К., Борисова О.Ю., Комбарова С.Ю. др. Некоторые особенности циркуляции биоваров gravis и mitis токсигенных и нетоксигенных штаммов C.diphtheriae. В: Проблемы инфекционных болезней (эпидемиология и профилактика). 2000, с. 52-55.
- Мазурова И.К. Комбарова С.Ю., Борисова О.Ю. и др. Мониторинг возбудителя дифтерийной инфекции. Эпидемиология и вакцинопрофилактика. 2009, 3: 17-22.
- Нисевич Н.И. Течение дифтерии в связи с типом дифтерии. Педиатрия. 1947, 3: 4451.
- Платонова Т.В., Мазурова И.К., Борисова О.Ю. и др. Биологические свойства C.diphtheriae и их влияние на клинику дифтерии у непривитых детей в условиях различной интенсивности эпипроцесса. В: Проблемы инфекционных болезней (эпидемиология и профилактика). 2000, с. 55-59.
- Хрущева В.А., Меклер С.С. Микробиологическая характеристика возбудителя дифтерии в послевоенные годы. В.Дифтерия. 1964, с.45-48.
- Bosch J.A., Turkenburg M., Nazmi K. ct al. Stress as a determinant of saliva-mediated adherence and coadherence of oral and nonoral microorganisms. Psychosom. Med. 2003, 65 (4): 604-612.
- Cerdeno-Tarraga A.M., Dover L.G., Holden M.T.G. al. The complete genome sequence and analysis of C.diphtheriae NCTC 12129. Nucleic Acids Res. 2003, 31 (22): 6516-6523.
- Funke G., Altwegg M., Frommelt L. al. Emergence of related nontoxigenic C.diphtheriae biotypes mitis strains in Western Europe. J. Emerg. Infect. Diseases. 1999, 5 (3): 983-989.
- Kirchherr J.L., Bowden G.H., Cole M.F. al. Physiological and serological variation in S.mitis biovar1 from the human oral cavity during the first year of life. Arch. Oral Biology. 2007, 52 (1): 90-99.
- Rogers J.D., Palmer R.J. Jr., Kolenbrander PE., Scannapieco F.A. Role of Streptococcus gordonii amylase-binding protein A in adhesion to hydroxyapatite, starch metabolism, and biofilm formation. Infect. Immun. 2001, 69: 7046-7056.
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