Full text loading...
Research Article
A Double-helical Structure for Re-aggregated Protein of Narcissus Mosaic Virus
- D. J. Robinson1, Aileen Hutcheson1, P. Tollin2 and H. R. Wilson2
- Published: 01 December 1975 https://doi.org/10.1099/0022-1317-29-3-325
Abstract
Summary
Isolated protein subunits of narcissus mosaic virus have been assembled without RNA into rod-like structures of similar diameter to the intact virus. Optical diffraction patterns from electron micrographs of these particles show that the subunits are in a double-helical arrangement.
- Received:
- Accepted:
- Published Online:
© Journal of General Virology 1975
Article metrics loading...
/content/journal/jgv/10.1099/0022-1317-29-3-325
1975-12-01
2025-12-12
Metrics
References
-
Finch J. T., Klug A. 1971; Three-dimensional reconstruction of the stacked-disk aggregate of tobacco mosaic virus protein from electron micrographs. Philosophical Transactions of the Royal Society of London, Series B 261:211–219
-
Francki R. I. B., Mclean G. D. 1968; Purification of potato virus X and preparation of infectious ribonucleic acid by degradation with lithium chloride. Australian Journal of Biological Science 21:1311–1318
-
Goodman R. M. 1973; Purification of potato virus X and the molecular weight of its coat protein subunits. John Innes Institute, 64th Annual Report 126:
-
Horne R. W., Ronchetti I. P. 1974; A negative staining-carbon film technique for studying viruses in the electron microscope. I. Preparative procedures for examining icosahedral and filamentous viruses. Journal of Ultrastructure Research 47:361–383
-
Kiselev N. A., De Rosier D. J., Atabekov J. G. 1969; A double-helical structure found on the re-aggregation of the protein of barley stripe mosaic virus. Journal of Molecular Biology 39:673–674
-
Moody M. F. 1967; Structure of the sheath of bacteriophage T4. I. Structure of the contracted sheath and polysheath. Journal of Molecular Biology 25:167–200
-
Mowat W. P. 1971; Narcissus mosaic virus. CMI/AAB Descriptions of Plant Viruses No 45:
-
Taylor C. A., Lipson H. 1964; Optical Transforms. Their Preparation and Application to X-ray Diffraction Problems London: G. Bell and Sons, Ltd;
-
Tollin P., Wilson H. R., Mowat W. P. 1975; Optical diffraction from particles of narcissus mosaic virus. Journal of General Virology 29:331–333
-
Tollin P., Wilson H. R., Young D. W. 1968; X-ray diffraction evidence of the helical structure of narcissus mosaic virus. Journal of Molecular Biology 34:189–192
-
Tollin P., Wilson H. R., Young D. W., Cathro J., Mowat W. P. 1967; X-ray diffraction and electron microscope studies of narcissus mosaic virus, and comparison with potato virus X. Journal of Molecular Biology 26:353–355
-
Wrigley N. G. 1968; The lattice spacing of crystalline catalase as an internal standard of length in electron microscopy. Journal of Ultrastructure Research 24:454–464
/content/journal/jgv/10.1099/0022-1317-29-3-325
A Double-helical Structure for Re-aggregated Protein of Narcissus Mosaic Virus
/content/journal/jgv/10.1099/0022-1317-29-3-325
/content/journal/jgv/10.1099/0022-1317-29-3-325
Data & Media loading...
Most read this month
Article
content/journal/jgv
Journal
5
3
false
en