N. B. Bajet scite author profile

The complete nucleotide sequence of infectious cloned DNA components (A and B) of the causal agent of squash leaf curl disease in the Philippines was determined. DNA‐A and DNA‐B comprise 2739 and 2705 nucleotides, respectively; the common region is 174 bases in length. Five ORFs were found in DNA‐A and two in DNA‐B. Partial dimeric clones containing DNA‐A and DNA‐B, constructed in a binary vector and transformed into Agrobacterium tumefaciens, induced systemic infection in agro‐inoculated pumpkin plants (Cucurbita moschata). The total DNA‐A sequence was most closely related to that of Squash leaf curl China virus (SLCCNV) (88% identity), although the existence of B component of SLCCNV has not been reported. The deduced coat protein was like that of SLCCNV (98% amino acid sequence identity) and the Philippines virus has low sequence identity to Squash leaf curl virus (SLCV) and Squash mild leaf curl virus (SMLCV) (63 and 64% total nucleotide sequence identities, respectively). From these results, we propose that the Philippines virus be designated Squash leaf curl China virus‐[Philippines] (SLCCNV‐[PH]).

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Occurrence of Two Little Cherry Viruses in Sweet Cherry in Washington State

Bajet

Unruh

Druffel

et al. 2008

Plant Disease

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Little cherry disease, one of the major viral diseases of sweet cherry (Prunus avium) worldwide, is associated with either of two closteroviruses, Little cherry virus 1 (LChV-1) and Little cherry virus 2 (LChV-2). Two sets of primers corresponding to a portion of the replicase gene of LChV-1 and LChV-2 were used in one-tube reverse-transcription polymerase chain reactions to detect these viruses in total RNA extracts of field-collected sweet cherry tissues. LChV-1 and LChV-2 were detected both alone and in combination in five sweet cherry orchards in Washington State. Sequence analysis of a 240-nucleotide (nt) fragment of the replicase open reading frame (ORF)1b and a 232-nt fragment from a portion of ORF8 and the 3′ untranslated region (UTR) of LChV-1 indicated that North American (NA) isolates shared 90 to 99% nucleotide identity in both genome segments analyzed. In contrast, comparisons of NA isolates to two Eurasian isolates of LChV-1 indicated shared nucleotide identities of 79 to 82% in the replicase fragment and 89 to 90% in the ORF8/3′UTR fragment. Sequence variation in the replicase region did not affect detection of LChV-1 in 12 isolates using the replicase-specific primers reported here. This article represents the first report of LChV-1 and LChV-2 in sweet cherry in Washington.

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Control of tar spot of maize and its effect on yield

Bajet

Renfro

Carrasco

1994

International Journal of Pest Management

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N. B. Bajet

Evidence for a divided genome in bean golden mosaic virus, a geminivirus

Molecular Characterization of a Strain ofSquash Leaf Curl China Virusfrom the Philippines

Occurrence of Two Little Cherry Viruses in Sweet Cherry in Washington State

Control of tar spot of maize and its effect on yield

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