Gregory Hafner scite author profile

We have analysed the sequence variability in the putative reverse transcriptase (RT)/ribonuclease H (RNaseH) and the C-terminal coat protein (CP)-coding regions from Taro bacilliform virus (TaBV) isolates collected throughout the Pacific Islands. When the RT/RNaseH-coding region of 22 TaBV isolates from Fiji, French Polynesia, New Caledonia, Papua New Guinea (PNG), Samoa, Solomon Islands and Vanuatu was examined, maximum variability at the nucleotide and amino acid level was 22.9% and 13.6%, respectively. Within the CP-coding region of 13 TaBV isolates from Fiji, New Caledonia, PNG, Samoa and the Solomon Islands, maximum variability at the nucleotide and amino acid level was 30.7% and 19.5%, respectively. Phylogenetic analysis showed that TaBV isolates from the Solomon Islands showed greatest variability while those from New Caledonia and PNG showed least variability. Based on the sequences of the TaBV RT/RNaseH-coding region, we have developed a PCR-based diagnostic test that specifically detects all known TaBV isolates. Preliminary indexing has revealed that TaBV is widespread throughout Pacific Island countries. A sequence showing approximately 50% nucleotide identity to TaBV in the RT/RNaseH-coding region was also detected in all taro samples tested. The possibility that this may represent either an integrated sequence or the genome of an additional badnavirus infecting taro is discussed.

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Genomic characterisation of taro bacilliform virus

Yang

Hafner

Dale

et al. 2003

Archives of Virology

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Taro bacilliform virus (TaBV) has been classified as a putative badnavirus based on its non-enveloped, bacilliform virion morphology and transmission by mealybugs. The complete nucleotide sequence of a Papua New Guinea isolate of TaBV has now been determined and comprises 7458 bp. The genome contains four open reading frames (ORFs) on the plus-strand that potentially encode proteins of 17, 16, 214 and 13 kDa. The size and organisation of TaBV ORFs 1-3 is similar to that of most other badnaviruses, while the location of ORF 4 is similar to that of ORF 4 and ORF X of the atypical badnaviruses Citrus yellow mosaic virus and Cacao swollen shoot virus, respectively. The putative amino acid sequence of TaBV ORF 3 contained motifs that are conserved amongst badnavirus proteins including aspartic protease, reverse transcriptase (RT) and ribonuclease H (RNase H). The highly conserved putative plant tRNA(met)-binding site was also present in the 935 bp intergenic region of TaBV. Phylogenetic analysis using the amino acid sequence of ORF 3 showed that TaBV branched most closely to Dioscorea bacilliform virus. These results confirm that TaBV is a pararetrovirus of the genus Badnavirus, family Caulimoviridae.

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Isothermal Amplification and Multimerization of DNA by Bst DNA Polymerase

et al. 2001

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We have demonstrated the isothermal in vitro amplification and multimerization of several different linear DNA targets using only two primers and the strongly strand-displacing exonuclease-negative Bst DNA polymerase. This reaction has been termed linear target isothermal multimerization and amplification (LIMA). LIMA has been compared with cascade rolling-circle amplification and has been found to be less sensitive but to yield similar variable-length multimeric dsDNA molecules. Products from several different LIMA reactions were characterized by restriction analysis and partial sequence determination. They were found to be multimers of subsets of the target sequence and were not purely primer derived. The sensitivities with respect to target concentration of several different LIMA reactions were determined, and they varied from 0.01 amol to 1 fmol. The sensitivity and specificity of LIMA were further tested using E. coli genomic DNA, and the selective amplification of a transposon fragment was demonstrated. A successful strategy for reducing LIMA-dependent background DNA synthesis in rolling-circle amplification embodiments was devised. This entailed the affinity purification of circular DNA templates before amplification.

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Functional analysis of proteins encoded by banana bunchy top virus DNA-4 to -6

Wanitchakorn

Hafner

Harding

et al. 2000

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Green fluorescent protein (GFP)-tagging was used to determine the intracellular localization pattern of the proteins encoded by banana bunchy top virus (BBTV) DNA-3, -4 and -6. The protein encoded by BBTV DNA-4, which possesses a hydrophobic N terminus, was found to localize exclusively to the cell periphery while the proteins encoded by BBTV DNA-3 and -6 were found in both the nucleus and the cytoplasm. Co-expression of the DNA-4 protein and the proteins encoded by BBTV DNA-3 and -6 revealed that the DNA-4 protein was able to re-locate the DNA-6 protein, but not the DNA-3 protein, to the cell periphery. The 29 amino acid N-terminal hydrophobic region of the DNA-4 gene product appeared to be essential for specific localization of this protein since deletion of this region abolished its ability to localize to the cell periphery. These results indicate that BBTV may utilize a system analogous to that of the begomoviruses with the BBTV DNA-6 protein acting as a nuclear shuttle protein (NSP) while the DNA-4 protein transports the NSP-DNA complexes to the cell periphery for intercellular transport. The protein encoded by BBTV DNA-5 was found to contain an LXCXE motif and yeast two-hybrid analysis revealed that the DNA-5 protein has retinoblastoma (Rb)-binding activity. This activity was dependent on an intact LXCXE motif since specific mutations to either the C or E residue completely abolished Rb-binding activity. These results indicate that the gene product of BBTV DNA-5 is an Rb-binding-like protein and may play an important role in host-cell cycle manipulation.

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Gregory Hafner

Nucleotide sequence of one component of the banana bunchy top virus genome contains a putative replicase gene

Sequence diversity of South Pacific isolates of Taro bacilliform virus and the development of a PCR-based diagnostic test

Genomic characterisation of taro bacilliform virus

Isothermal Amplification and Multimerization of DNA by Bst DNA Polymerase

Functional analysis of proteins encoded by banana bunchy top virus DNA-4 to -6

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