Alessandra Cavalli scite author profile

Two isolates of canine parvovirus (CPV) were obtained from dogs affected with severe haemorrhagic diarrhoea. Type 2b antigenic specificity was predicted by both antigenic analysis with monoclonal antibodies and PCR characterization with type-specific primers. Nevertheless, sequence analysis of the capsid protein-encoding gene revealed two amino acid changes. One of the changes affected position 426 (Asp to Glu), in a major antigenic site of the viral capsid, determining the replacement of a residue unique to CPV type 2b. The failure of established typing methods to distinguish this antigenic variant was overcome by the development of an RFLP assay. During the early 1970s, a new infectious disease of pups, characterized by either gastroenteritis or myocarditis, was observed worldwide. A small, round, non-enveloped virus was observed by electron microscopy in stool specimens and in tissues of affected animals. Subsequently, a novel parvovirus was isolated both in canine and feline cell cultures (Kelly, 1978 ; Appel et al., 1979 ; Burtonboy et al., 1979 ; Johnson & Spradbrow, 1979). The virus was named canine parvovirus type 2 (CPV-2), to distinguish it from the previously described parvovirus canine minute virus (CMV or CPV-1), which is antigenically unrelated to CPV-2 (Carmichael & Binn, 1981 ; Carmichael et al., 1994). CPV possesses a single-stranded DNA genome of negative polarity, about 5200 nt in length. The CPV capsid is a 26 nm diameter icosahedron made up of a combination of two proteins, VP1 and VP2, formed by alternative splicing from the same RNA (Reed et al., 1988). The mutation rate of the CPV genome has not been determined ; however, since parvovirus DNA is replicated by host cell DNA polymerases (Cotmore &

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Canine parvovirus infection: Which diagnostic test for virus?

Desario¹,

Decaro²,

Campolo³

et al. 2005

Journal of Virological Methods

152

148

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Genetic analysis of canine parvovirus type 2c

et al. 2009

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The sequence of the full-length gene encoding for the main capsid protein VP2 of 58 canine parvovirus (CPV) type 2c strains, along with recent CPV-2a/2b strains, was determined and analysed in comparison with reference CPV isolates. The CPV-2c strains displayed a low genetic variability and shared amino acid changes already detected in recent CPV-2a/2b isolates, with a phylogenetic clustering accounting for their geographical distribution. Analysis of the selection pressure driving CPV evolution confirmed that the VP2 gene is under purifying selection. The emergence and global spread of the new CPV variant provides an interesting model to better understand virus evolution.

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Detection and Molecular Characterization of a Canine Norovirus

Martella

Lorusso

Decaro

et al. 2008

Emerg. Infect. Dis.

132

120

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Genetic diversity of a canine coronavirus detected in pups with diarrhoea in Italy

Pratelli

Martella

Decaro

et al. 2003

Journal of Virological Methods

113

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The sequence of the S gene of a field canine coronavirus (CCoV), strain Elmo/02, revealed low nucleotide (61%) and amino acid (54%) identity to reference CCoV strains. The highest correlation (77% nt and 81.7% aa) was found with feline coronavirus type I. A PCR assay for the S gene of strain Elmo/02 detected analogous CCoVs of different geographic origin, all which exhibited at least 92-96% nucleotide identity to each other and to strain Elmo/02. The evident genetic divergence between the reference CCoV strains and the newly identified Elmo/02-like CCoVs strongly suggests that a novel genotype of CCoV is widespread in the dog population.

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