Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/the-genome-segment-b-encoding-the-rna-dependent-rna-polymerase-protein-VAhCeXbIVJ
References (37)
-
O. Poch, I. Sauvaget, M. Delarue, N. Tordo (1989)
Identification of four conserved motifs among the RNA‐dependent polymerase encoding elements.The EMBO Journal, 8
-
P. Dobos, B. Hill, R. Hallett, D. Kells, H. Becht, D. Teninges (1979)
Biophysical and biochemical characterization of five animal viruses with bisegmented double-stranded RNA genomesJournal of Virology, 32
-
J. Ribas, R. Wickner (1992)
RNA-dependent RNA polymerase consensus sequence of the L-A double-stranded RNA virus: definition of essential domains.Proceedings of the National Academy of Sciences of the United States of America, 89 6
-
A. Azad, S. Barrett, K. Fahey (1985)
The characterization and molecular cloning of the double-stranded RNA genome of an Australian strain of infectious bursal disease virus.Virology, 143 1
-
H. Boot, A. Huurne, B. Peeters (2000)
Generation of full-length cDNA of the two genomic dsRNA segments of infectious bursal disease virus.Journal of virological methods, 84 1
-
K. Zierenberg, H. Nieper, T. Berg, C. Ezeokoli, M. Voss, H. Müller (2000)
The VP2 variable region of African and German isolates of infectious bursal disease virus: comparison with very virulent, “classical” virulent, and attenuated tissue culture-adapted strainsArchives of Virology, 145
-
T. Berg, M. Gonze, Dolores Morales, G. Meulemans (1996)
Acute infectious bursal disease in poultry: Immunological and molecular basis of antigenicity of a highly virulent strain.Avian pathology : journal of the W.V.P.A, 25 4
-
E. Koonin, V. Dolja, T. Morris (1993)
Evolution and taxonomy of positive-strand RNA viruses: implications of comparative analysis of amino acid sequences.Critical reviews in biochemistry and molecular biology, 28 5
-
M. Petek, P. D’Aprile, F. Cancellotti (1973)
Biological and physico-chemical properties of the infectious bursal disease virus (IBDV).Avian pathology : journal of the W.V.P.A, 2 2
-
J. Mcferran, M. Mcnulty, E. McKillop, T. Connor, R. McCracken, D. Collins, G. Allan (1980)
Isolation and serological studies with infectious bursal disease viruses from fowl, turkeys and ducks: demonstration of a second serotype.Avian pathology : journal of the W.V.P.A, 9 3
-
U. Spies, H. Müller, H. Becht (1987)
Properties of RNA polymerase activity associated with infectious bursal disease virus and characterization of its reaction products.Virus research, 8 2
-
Tsuyoshi Yamaguchi, M. Ogawa, Y. Inoshima, M. Miyoshi, H. Fukushi, K. Hirai (1996)
Identification of sequence changes responsible for the attenuation of highly virulent infectious bursal disease virus.Virology, 223 1
-
C. Joyce, T. Steitz (1995)
Polymerase structures and function: variations on a theme?Journal of Bacteriology, 177
-
E. Mundt, J. Beyer, H. Müller (1995)
Identification of a novel viral protein in infectious bursal disease virus-infected cells.The Journal of general virology, 76 ( Pt 2)
-
Michael Brown, Michael Skinner (1996)
Coding sequences of both genome segments of a European 'very virulent' infectious bursal disease virus.Virus research, 40 1
-
H. Nick, D. Cursiefen, H. Becht (1976)
Structural and growth characteristics of infectious bursal disease virusJournal of Virology, 18
-
R. Duncan, C. Mason, E. Nagy, J. Leong, P. Dobos (1991)
Sequence analysis of infectious pancreatic necrosis virus genome segment B and its encoded VP1 protein: A putative RNA-dependent RNA polymerase lacking the Gly-Asp-Asp motifVirology, 181
-
Hermann Muller, H. Becht (1982)
Biosynthesis of virus-specific proteins in cells infected with infectious bursal disease virus and their significance as structural elements for infectious virus and incomplete particlesJournal of Virology, 44
-
Cao Yc, W. Yeung, M. Law, Bi Yz, Leung Fc, B. Lim (1998)
Molecular characterization of seven Chinese isolates of infectious bursal disease virus: classical, very virulent, and variant strains.Avian diseases, 42 2
-
G. Firth (1974)
Letter: Occurrence of an infectious bursal syndrome within an Australian poultry flock.Australian veterinary journal, 50 3
-
(1977)
Infectiöse Bursitis (Gumboro disease) in einem Broilerbestand -
J. Hansen, A. Long, S. Schultz (1997)
Structure of the RNA-dependent RNA polymerase of poliovirus.Structure, 5 8
-
N. Chettle, R. Eddy, P. Wyeth (1985)
The isolation of infectious bursal disease virus from turkeys in England.The British veterinary journal, 141 2
-
M. Islam, K. Zierenberg, N. Eterradossi, D. Toquín, G. Rivallan, H. Müller (2001)
Molecular and antigenic characterization of Bangladeshi isolates of infectious bursal disease virus demonstrate their similarities with recent European, Asian and African very virulent strains.Journal of veterinary medicine. B, Infectious diseases and veterinary public health, 48 3
-
C. Ward (1993)
Progress towards a higher taxonomy of virusesResearch in Virology, 144
-
D. Jackwood, Y. Saif, Hughes Jh (1982)
Characteristics and serologic studies of two serotypes of infectious bursal disease virus in turkeys.Avian diseases, 26 4
-
A. Bygrave, J. Faragher (1970)
Mortality associated with Gumboro disease.Veterinary Record, 86
-
Tsuyoshi Yamaguchi, Motohiko Ogawa, Masahiro Miyoshi, Yasuo Inoshima, H. Fukushi, Katsuya Hirai (1997)
Sequence and phylogenetic analyses of highly virulent infectious bursal disease virusArchives of Virology, 142
-
P. Hudson, N. Mckern, B. Power, A. Azad (1986)
Genomic structure of tbe large RNA segment of infectious bursal disease virusNucleic Acids Research, 14
-
J. Otsuka, N. Kikuchi, S. Kojima (1999)
Similarity relations of DNA and RNA polymerases investigated by the principal component analysis of amino acid sequencesBiochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, 1434
-
V. Lohmann, F. Körner, U. Herian, R. Bartenschlager (1997)
Biochemical properties of hepatitis C virus NS5B RNA-dependent RNA polymerase and identification of amino acid sequence motifs essential for enzymatic activityJournal of Virology, 71
-
Michael Brown, P. Green, M. Skinner (1994)
VP2 sequences of recent European 'very virulent' isolates of infectious bursal disease virus are closely related to each other but are distinct from those of 'classical' strains.The Journal of general virology, 75 ( Pt 3)
-
H. Yehuda, J. Pitcovski, A. Michael, B. Gutter, M. Goldway (1999)
Viral protein 1 sequence analysis of three infectious bursal disease virus strains: a very virulent virus, its attenuated form, and an attenuated vaccine.Avian diseases, 43 1
-
Hermann Müller, Roland Nitschke (1987)
The two segments of the infectious bursal disease virus genome are circularized by a 90,000-Da protein.Virology, 159 1
-
N. Eterradossi, C. Arnauld, D. Toquín, G. Rivallan (1998)
Critical amino acid changes in VP2 variable domain are associated with typical and atypical antigenicity in very virulent infectious bursal disease virusesArchives of Virology, 143
-
P. Hudson, N. Mckern, B. Power, A. Azad (1986)
Genomic structure of the large RNA segment of infectious bursal disease virus.Nucleic acids research, 14 12
-
R. Matthews (1979)
The classification and nomenclature of viruses. Summary of results of meetings of the International Committee on Taxonomy of Viruses in The Hague, September 1978.Intervirology, 11 3
- Publisher
- Springer Journals
- Copyright
- Copyright © 2001 by Springer-Verlag/Wien
- Subject
- Legacy
- ISSN
- 0304-8608
- eISSN
- 1432-8798
- DOI
- 10.1007/s007050170018
- Publisher site
- See Article on Publisher Site
Abstract
A full-length cDNA clone of the segment B of the very virulent infectious bursal disease virus (IBDV) strain BD 3/99 was constructed and the full-length nucleotide sequence was established. The nucleotide sequence encoding VP1, an RNA-dependent RNA polymerase, of BD 3/99 was aligned with that of 17 other IBDV strains including six very virulent, three classical virulent, five classical attenuated, one antigenic variant and two serotype 2 strains. The VP1 genes of all very virulent strains were 97.5% to 99.8% identical. With the exception of an atypical Australian strain, 002-73, all of the classical virulent or attenuated and antigenic variant strains were also 97.5% to 100% identical. Serotype 2 strains showed only 4–6% divergence from serotype 1 classical virulent or attenuated strains; in contrast, however, the very virulent strains were 10.5% to 12.5% divergent from the classical virulent or attenuated strains as well as serotype 2 strains. Analysis of the deduced amino acid sequence of VP1 revealed 17 common, including 8 unique amino acid substitutions in the very virulent strains. In the phylogenetic tree the very virulent strains formed a distinct cluster and all other strains including classical virulent, attenuated and antigenic variant strains and even serotype 2 strains were grouped together. It to is suggested that the VP1 of very virulent IBDV is phylogenetically distinct from that of all other IBDV strains and probably originated from a hitherto unidentified source.
Journal
Archives of Virology – Springer Journals
Published: Dec 1, 2001