1. Architecture of Physalis Mottle Tymovirus as Probed by Monoclonal Antibodies and Cross-Linking Studies
- Author
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Ramesh Kekuda, A. N. K. Jacob, Anjali A. Karande, and Handanahal S. Savithri
- Subjects
Models, Molecular ,medicine.drug_class ,Blotting, Western ,Molecular Sequence Data ,Biology ,Monoclonal antibody ,Peptide Mapping ,Biochemistry ,Protein Structure, Secondary ,Virus ,Epitope ,Capsid ,Mosaic Viruses ,Virology ,Plant virus ,medicine ,Ultraviolet light ,Trypsin ,Amino Acid Sequence ,Clostripain ,Antibodies, Monoclonal ,RNA ,Molecular biology ,Peptide Fragments ,RNA, Viral - Abstract
Physalis mottle tymovirus (previously named belladonna mottle virus, Iowa strain) RNA was cross-linked to its coat protein by exposure of the intact virus to ultraviolet light. The site of cross-linking of the coat protein with the RNA was identified as Lys-10 by sequencing the oligonucleotide-linked tryptic peptide obtained upon HPLC separation subsequent to enzymatic digestion of the cross-linked and dissociated virus. Three monoclonal antibodies PA3B2, PB5G9, and PF12C9, obtained using denatured coat protein as antigen, cross-reacted effectively with the intact virus indicating that the epitopes recognized by these monoclonals are on the surface of the virus. Using the peptides generated by digestion with CNBr, clostripain, V-8 protease, or trypsin and a recombinant protein lacking the N-terminal 21 residues expressed from a cDNA clone, it was shown that PA3B2 recognizes the sequence 22-36 on the coat protein while PB5G9 and PF12C9 recognize region 75-110. These results suggest that Lys-10 is one of the specific sites through which the RNA interacts in the intact virus. The polypeptide segment (region 22-36) following this buried portion as well as the epitope within the region 75-110 are exposed in the intact virus. These observations are consistent with the canonical beta-barrel structure observed in certain other plant viruses.
- Published
- 1993