Problems of Virology

Вопросы вирусологии

0507-40882411-2097

Central Research Institute for Epidemiology

12044

Articles

Статьи

A real-time polymerase chain reaction-based test system for quantitation of Gumboro disease virus

Тест-система на основе ПЦР в реальном времени для количественного определения вируса болезни Гамборо

15062010

553

NO3 (2010)

№3 (2010)

474909062023

2010

Pogoda A.A., Potekhina M.A., Pogoda A.A., Potekhina M.A.

Погода А.А., Потехина М.А., Pogoda A.A., Potekhina M.A.

https://creativecommons.org/licenses/by/4.0

https://virusjour.crie.ru/jour/article/view/12044

A real-time polymerase chain reaction-based test system for quantitation of infectious bursal disease (Gumboro disease) virus was developed. The reaction parameters were analyzed, which affected the linear relationship of a C1 depentanizer to the quantity of cDNA. The use of specific primers for reverse transcription was shown to have some advantage over that of random hexanucleotides.

Разработана тест-система для количественной оценки вируса инфекционной бурсальной болезни (болезни Гамборо) на основе реал-тайм ПЦР. Проанализированы условия и диапазон линейной зависимости порогового цикла розжига от количества матрицы. Показано преимущество использования специфичных праймеров по сравнению со случайными гексануклеотидами при получении кДНК.

Gumboro diseasereal-time polymerase chain reactiondiagnosisquantitation

болезнь Гамборореал-тайм ПЦРдиагностикаколичественная оценка

Bayliss C. D., Spies U., Shaw K., Peters R. W. et al. A comparison of the sequence of segment A of four infection bursal disease virus strains and identification of a variable region in the VP2 // J. Gen. Virol. - 1990. - Vol. 71. - P. 1303-1312.

Brown M. D., Skiner M. A. Coding sequences of both genome segments of a European very virulent infectious bursal disease virus // Virus Res. - 1996 - Vol. 40, N 1. - P. 1-15.

Henry C. W., Brewer R. N., Edgar S. A. Studies on infectious bursal disease in chickens. 2. Scoring microscopic lesions in the bursa of fabricius, thymus, spleen, and kidney in gnotobiotic and battery reared white leghorns experimentally infected with infectious bursal disease virus // Poult. Sci. - 1980. - Vol. 59. - P. 1006-1017.

Kibenge F. S. B., Dhillon A. S., Russell R. G. Biochemistry and immunology of infectious bursal disease virus // J. Gen. Virol. - 1988. - Vol. 69. - P. 1757-1775.

Lin H.-J., Giambrone J. J., Dormitorio T. Detection of genetic variations in serotype 1 isolates of infectious bursal disease virus using polymerase chain reaction and restriction and nuclease analysis // J. Virol. Meth. - 1994. - Vol. 48. - P. 281-291.

Moody A., Sellers S., Bumstead N. Measuring infectious bursal disease virus RNA in blood by multiplex real-time quantitative RT-PCR // J. Virol. Meth. - 2000. - Vol. 85. - P. 55-64.

Petkov D., Linnemann E., Kapczynski D. R., Sellers H. S. Full-length sequence analysis of four IBDV strains with different pathogenicities // Virus. Genes. - 2007. - Vol. 34, N 3. - P. 315-326.

Proffitt J. M., Bastin D. A., Lehrbach P. R. Sequence analysis of Australian infectious bursal disease viruses // Aust. Vet. J. - 1999. - Vol.77. - P. 186-188.

Wu C. C., Lin T. L., Zhang H. G. et al. Molecular detection of infectious bursal disease virus by polymerase chain reaction // Avian. Dis. - 1992. - Vol. 36. - P. 221-226.

10.

Zierenberg K., Raue R., Müller H. Rapid identification of very virulent strains of infectious bursal disease virus by reverse transcriptase-polymerase chain reaction combined with restriction enzyme analysis // Avian Pathol. - 2001. - Vol. 30. - P. 55-62.