Complete nucleotide sequence of a potato isolate of strain group C of Potato virus Y from 1938

The complete genomic sequence of an isolate (PRI-509) of the C strain of Potato virus Y (PVYC), which was originally isolated from potato in 1938, was elucidated. The genomic RNA of PRI-509 consists of 9699 nucleotides, with the capacity to encode a polyprotein of 3061 amino acids with a molecular mass of 337 kDa

Development and application of a duplex PCR assay for detection of Crangon crangon bacilliform virus in populations of European brown shrimp (Crangon crangon)

Crangon crangon bacilliform virus (CcBV) was first discovered in 2004 in European brown shrimp (Crangon crangon) caught along the English coast. This study describes a duplex PCR assay developed for the detection of CcBV, based on amplification of the lef-8 gene (211 bp) of CcBV and the E75 gene (105 bp) of C. crangon as an internal amplification control. The lef-8 and E75 primer pairs were designed based on preliminary genome sequencing information of the virus and transcriptomic data available for C. crangon, respectively. Sequencing of the resulting amplicons confirmed the specificity of this PCR assay and sequence analysis of the lef-8 fragment revealed amino acid identity percentages ranging between 31 and 42% with members of the Nudiviridae, proposing that CcBV may reside within this family. Finally, the duplex PCR assay was applied to samples of C. crangon hepatopancreas tissue collected along the Belgian coast to screen for the presence of CcBV. The prevalence of CcBV averaged 87%, which is comparable to previous reports of high prevalence, based upon histological analysis, in shrimp collected along the English coast. Development of a specific and sensitive PCR assay to detect CcBV will provide a useful tool for future aquaculture and research programs involving C. crangon

Transmissão por afídeos e afinidade a Buchnera sp. GroEL de um mutante deletério da proteína de RTD do Potato leafroll virus

Potato leafroll virus (PLRV), genus Polerovirus, family Luteoviridae, is transmitted by aphids in a persistent and circulative manner. Members of the family Luteoviridae associate with a GroEL homologue produced by the primary endosymbiont (Buchnera sp.) of aphids to avoid degradation in the hemolymph. Purified luteovirus particles contain two types of proteins: a major capsid protein (CP) of ~22 kDa and a minor capsid component of 54 kDa, which is a truncated form of a translation read-through protein of the CP gene termination codon. The read-through domain (RTD) contains determinants responsible for virus transmission. An infectious full-length cDNA clone of PLRV and a mutant devoid of the RTD were used to analyze the molecular interactions between this luteovirus and its aphid vector Myzus persicae. The PLRV mutant virions, lacking the entire RTD protein, were not transmissible by M. persicae and did not bind to Buchnera sp. GroEL. Furthermore, this mutant was less persistent in the aphid's hemolymph than in the wild type virus.Potato leafroll virus (PLRV), gênero Polerovirus, família Luteoviridae, é transmitido por afídeos de um modo persistente e circulativo. Membros da família Luteoviridae associam-se a um homólogo de GroEL produzido pelo endosimbionte primário (Buchnera sp.) de afídeos para evitar a degradação na hemolinfa. Partículas purificadas de luteovirus contêm dois tipos de proteínas: a capa protéica (CP) de ~22 kDa e um componente capsidial de 54 kDa, o qual é uma forma truncada de uma proteína de transleitura a partir do códon de terminação do gene da CP. O domínio de transleitura (RTD) contém determinantes responsáveis pela transmissão do vírus. Um clone de cDNA infeccioso do PLRV e um mutante deletério da RTD foram usados para analisar as interações entre esse luteovirus e seu afídeo vetor Myzus persicae. As partículas mutantes do PLRV, deficientes da proteína RTD inteira, não foram transmissíveis por M. persicae e não se ligaram a Buchnera GroEL. Adicionalmente, esse mutante foi menos persistente na hemolinfa do afídeo do que o vírus selvagem.25926

Development and application of a duplex PCR assay for detection of Crangon crangon bacilliform virus in populations of European brown shrimp (Crangon crangon)

Crangon crangon bacilliform virus (CcBV) was first discovered in 2004 in European brown shrimp (Crangon crangon) caught along the English coast. This study describes a duplex PCR assay developed for the detection of CcBV, based on amplification of the lef-8 gene (211 bp) of CcBV and the E75 gene (105 bp) of C. crangon as an internal amplification control. The lef-8 and E75 primer pairs were designed based on preliminary genome sequencing information of the virus and transcriptomic data available for C. crangon, respectively. Sequencing of the resulting amplicons confirmed the specificity of this PCR assay and sequence analysis of the lef-8 fragment revealed amino acid identity percentages ranging between 31 and 42% with members of the Nudiviridae, proposing that CcBV may reside within this family.Finally, the duplex PCR assay was applied to samples of C. crangon hepatopancreas tissue collected along the Belgian coast to screen for the presence of CcBV. The prevalence of CcBV averaged 87%, which is comparable to previous reports of high prevalence, based upon histological analysis, in shrimp collected along the English coast. Development of a specific and sensitive PCR assay to detect CcBV will provide a useful tool for future aquaculture and research programs involving C. crangon