RESUMEN
Beans with yellow mosaic and/or leaf crumple symptoms were collected in three fields in the southern area of the province of Havana, Cuba in December 2001 and February 2002. DNA was extracted from the fresh bean leaves of 25 samples (1). Dot blot hybridization was performed at high stringency with a specific probe for Tomato yellow leaf curl virus (TYLCV). The specific probe was prepared by alkaline phosphatase labeling of the polymerase chain reaction (PCR) fragment amplified with primer pair, PTYIRv21/PTYIRc287, containing the intergenic region (IR) of TYLCV, and chemiluminescent hybridization was completed as described by the manufacturer (AlkPhos Direct Labeling and Detection Systems, Amersham Pharmacia Biotech Inc., Piscataway, NJ). Four of the samples had positive hybridization signals. PCR was performed with overlapping primers for TYLCV (2) with the DNA extract from sample 01-44, which gave a positive hybridization signal with the TYLCV probe, and a 2.8-kb fragment was obtained. This fragment was cloned in pGem T-Easy (pBeTY44) and partially sequenced. Greater than 96% nt identity was obtained for the 591 nt of the IR and 504 nt of the N-terminus of the Rep gene with TYLCV (GenBank Accession No. AF260331). Also, PCR was completed on 11 of the 25 samples with the degenerate primer pair PAL1v1978/PAR1c715 for DNA-A (3). Eight samples gave fragment sizes of 1.4 kb and one sample gave a fragment of 1.3 kb. The 1.3-kb fragment from sample number 01-50 was cloned in pGem T-Easy (pBeBG50) and partially sequenced. Pairwise nucleotide comparisons with Bean golden yellow mosaic virus (BGYMV, GenBank Accession No. M91604) were 95% for 719 nt of the N-terminus of the Rep gene. These results are consistent with the association of both TYLCV and BGYMV in beans and have important implications for future disease management strategies. References: (1) G. P. Accotto et al. Eur. J. Plant. Pathol. 106:179, 2000. (2) M. K. Nakhla et al. Plant Dis. 78:926, 1994. (3) M. Rojas et al. Plant Dis. 77:340, 1993.
RESUMEN
Rhynchosia minima was suspected to be a weed host of Bean golden yellow mosaic virus (BGYMV, previously designated Bean golden mosaic virus type II). Leaf tissue that exhibited yellow mosaic foliar symptoms characteristic of a geminivirus infection was collected in the Comayagua Valley in Honduras in July 1999. Extraction of viral DNA from the symptomatic leaves was accomplished with the DNeasy Plant Mini Kit (Qiagen Inc., Valencia, CA). Subsequent viral DNA amplification was accomplished with degenerative primers for the cp gene (AV494/AC1048) (4). The 570-bp fragment was cloned into the pGEM T-Easy vector (Promega Corp., Madison, WI) producing the recombinant plasmid pRhyb5. The viral insert was sequenced, and from this sequence, specific primers (RHc549 and RHv29) were designed to amplify the remaining part of DNA-A. The 2.1-kb-amplified polymerase chain reaction (PCR) fragment was cloned into the pGEM T-Easy vector producing the recombinant plasmid (pRhya-sp), and the viral insert was sequenced. Nucleotide sequence comparison (GAP program, Wisconsin Package Version 10.0, Genetics Computer Group, Madison, WI) of the complete 2,624-bp DNA-A (GenBank accession no. AF239671) to geminiviruses representing the major phylogenetic clusters (1) showed nucleotide identities ranging from 63 to 82%. Sequence comparisons for the common region and rep, trap, ren, and cp genes with the most closely related geminivirus, Pepper hausteco virus (PHV, X70418), gave 76, 82, 79, 81, and 82% nucleotide identities, respectively. There is a direct repeat (TATCGGT) of 7 nt 5' (viral sense polarity) of the conserved TATA box, and this repeat is most analogous to that in PHV (1). Specific primers were designed in the complementary sense (RGBc2414, BGBc2553) from the common region DNA-A sequence and used with a degenerative viral sense primer for the DNA-B (PBC1v2039) (3) to amplify a 647-bp fragment. Sequence comparison for the common region (134 nt from the rep gene start codon toward the 3' end) from the DNA-B sequence had 88% nt identity to the DNA-A sequence, thus indicating that this geminivirus is bipartite. These sequence analyses indicated that this geminivirus isolated from R. minima is distinct from previously described geminiviruses, and we propose the name Rhynchosia golden mosaic virus (RGMV). From rep gene sequence alignments, RGMV has an apparent genome recombination between Old and New World geminiviruses (Tomato yellow leaf curl virus and Bean dwarf mosaic virus) as previously noted for PHV (2). Our results indicate that RGMV is a distinct geminivirus from BGYMV, and, thus, additional studies are needed to establish the importance of R. minima as a reservoir for vegetable-infecting geminiviruses. This study is the first report of another virus in the PHV phylogenetic cluster and is thus of importance in the understanding of recombinant viruses and their phylogenetic relationship to other characterized geminiviruses. References: (1) J. C. Faria et al. Phytopathology 84:321, 1994. (2) M. Padidam et al. Virology 265:218, 1999. (3) M. R. Rojas et al. Plant Dis. 77:340, 1993. (4) S. Wyatt and J. K. Brown. Phytopathology 86:1288, 1996.