I Bergmann scite author profile

A full-length reverse-transcribed, infectious cDNA copy of coxsackievirus B3 (CVB3) was used to determine the nucleotide sequence of this cardiotropic enterovirus. Comparison of the nucleotide sequence and the deduced amino acid sequence of the viral precursor polyprotein with the sequences of other group B coxsackieviruses (CVB1 and CVB4) demonstrates a high degree of genetic identity. They share about 80% homology at the nucleotide level and about 90% when the amino acid sequences of the polyproteins are compared. The potential processing sites of the coxsackievirus polyproteins, as deduced from alignment with the poliovirus sequence, are conserved among these enteroviruses with the exception of the cleavage sites between VP1 and 2APro and between polypeptides 2B and 2C. Comparison of the 5' termini of the enteroviral genomes reveals a high degree of identity, including the initial 5' consensus UUAAAACAGC, suggesting essential functions in virus replication. An important finding concerning the molecular basis of infectivity was that both recombinant CVB3 cDNA and in vitro-synthesized CVB3 RNA transcripts are infectious, although two initial 5' uridine residues found on the authentic CVB3 RNA were missing. Here, we report that cDNA-generated CVB3, as well as CVB3 generated by in vitro-synthesized RNA transcripts, regains the authentic initial 5' uridine residues during replication in transfected cells, indicating that the picornaviral primer molecule VPg-pUpU may be uridylylated in a template-independent fashion. The generation of virus or virus mutants with infectious recombinant CVB3 cDNA and in vitro-synthesized infectious CVB3 transcripts should provide a valuable means for studying the molecular basis of the pathogenicity of this cardiotropic enterovirus.

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Foot-and-mouth disease virus protease 3C induces specific proteolytic cleavage of host cell histone H3

Falk

Grigera

Bergmann

et al. 1990

J Virol

157

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In foot-and-mouth disease virus (FMDV)-infected cells, the disappearance of nuclear protein histone H3 and the simultaneous appearance of a new chromatin-associated protein termed Pi can be observed (P. R. Grigera and S. G. Tisminetzky, Virology 136:10-19, 1984). We sequenced the amino terminus of protein Pi and showed that Pi derives from histone H3 by proteolytic cleavage. The 20 N-terminal amino acid residues of histone H3 are specifically cleaved off early during infection. Truncated histone H3 remains chromatin associated. In addition, we showed that the histone H3-Pi transition is catalyzed by the FMDV 3C protease. The only known function of the viral 3C protease was, until now, the processing of the viral polyprotein. The viral 3C protease is the only FMDV protein required to induce the histone H3-Pi transition, as well as being the only viral protein capable of cleaving histone H3. No viral precursor fusion protein is needed for this specific cleavage as was reported for the processing of the poliovirus P1 precursor polyprotein by 3C/D protease. As the deleted part of the histone H3 corresponds to the presumed regulatory domain involved in the regulation of transcriptionally active chromatin in eucaryotes, it seems possible that this specific cleavage of histone H3 is related to the host cell transcription shutoff reported for several picornaviruses.

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Rapid selection of genetic and antigenic variants of foot-and-mouth disease virus during persistence in cattle

Gebauer

Torre

Gomes

et al. 1988

J Virol

158

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Rapid evolution of foot-and-mouth disease virus (FMDV) is documented during persistent infections of cattle. The carrier state was established experimentally with plaque-purified FMDV of serotype C3. Virus was recovered from the esophageal pharyngeal area of the animals up to 539 days postinfection. Analysis of capsid proteins by electrofocusing and by electrophoretic mobility of the genomic poly(C)-rich tract suggested heterogeneity in several isolates and sequential dominance of viral subpopulations. Nucleotide sequences of the VPI-coding region of the parental FMDV C3 clones and of seven isolates from the carrier cattle showed point mutations that represented rates of fixation of mutations of 0.9 x 10-2 to 7.4 x 10-2 substitutions per nucleotide per year; 59% of the base changes led to amino acid substitutions, some of which were located within residues 135 to 151, a region involved in neutralization of FMDV. In the esophageal pharyngeal fluid samples, FMDV C3-neutralizing activity was present. Antigenic variation was demonstrated with monoclonal antibodies raised against FMDV C3. Two isolates from carrier cattle differed from the parental virus by 102_ or 103-fold decreased reactivity with neutralizing monoclonal antibodies. We suggest that persistent, inapparent infections of ruminants, in addition to being a reservoir of virus, may promote the rapid selection of antigenically variant FMDVs.

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I Bergmann

Comparative evaluation of six ELISAs for the detection of antibodies to the non-structural proteins of foot-and-mouth disease virus

Application of non-structural protein antibody tests in substantiating freedom from foot-and-mouth disease virus infection after emergency vaccination of cattle

Complete nucleotide sequence of infectious Coxsackievirus B3 cDNA: two initial 5' uridine residues are regained during plus-strand RNA synthesis

Foot-and-mouth disease virus protease 3C induces specific proteolytic cleavage of host cell histone H3

Rapid selection of genetic and antigenic variants of foot-and-mouth disease virus during persistence in cattle

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