Your search keyword '"Barron LD"' showing total 3 results

1. Solution structures of potato virus X and narcissus mosaic virus from Raman optical activity.

Author

Blanch EW, Robinson DJ, Hecht L, Syme CD, Nielsen K, and Barron LD

Subjects

Chenopodium quinoa, Mosaic Viruses, Protein Conformation, Protein Folding, RNA, Viral chemistry, Solutions, Spectrum Analysis, Raman, Nicotiana, Capsid chemistry, Potexvirus chemistry

Abstract

Potato virus X (PVX) and narcissus mosaic virus (NMV) were studied using vibrational Raman optical activity (ROA) in order to obtain new information on the structures of their coat protein subunits. The ROA spectra of the two intact virions are very similar to each other and similar to that of tobacco mosaic virus (TMV) studied previously, being dominated by signals characteristic of proteins with helix bundle folds. In particular, PVX and NMV show strong positive ROA bands at approximately 1340 cm(-1) assigned to hydrated alpha-helix and perhaps originating in surface exposed helical residues, together with less strong positive ROA intensity in the range approximately 1297-1312 cm(-1) assigned to alpha-helix in a more hydrophobic environment and perhaps originating in residues at helix-helix interfaces. The positive approximately 1340 cm(-1) ROA band of TMV is less intense than those of PVX and NMV, suggesting that TMV contains less hydrated alpha-helix. Small differences in other spectral regions reflect differences in some loop, turn and side-chain compositions and conformations among the three viruses. A pattern recognition program based on principal component analysis of ROA spectra indicates that the coat protein subunit folds of PVX and NMV may be very similar to each other and similar to that of TMV. These results suggest that PVX and NMV may have coat protein subunit structures based on folds similar to the TMV helix bundle and hence that the helical architecture of the PVX and NMV particles may be similar to that of TMV but with different structural parameters.

Published

2002

2. A comparison of the solution structures of tobacco rattle and tobacco mosaic viruses from Raman optical activity.

Author

Blanch EW, Robinson DJ, Hecht L, and Barron LD

Subjects

Capsid metabolism, Pliability, Protein Structure, Secondary, Protein Structure, Tertiary, Protein Subunits, Solutions, Spectrum Analysis, Raman, Vibration, Viral Proteins metabolism, Capsid chemistry, Capsid Proteins, RNA Viruses chemistry, Tobacco Mosaic Virus chemistry, Viral Proteins chemistry

Abstract

Vibrational Raman optical activity (ROA) spectra of tobacco rattle virus (TRV) and tobacco mosaic virus (TMV) were measured and compared with a view to obtaining new information about the coat protein subunit structure of TRV. A sharp strong positive band observed at approximately 1344 cm(-1) in the ROA spectra of the two viruses is evidence that both contain a significant amount of a hydrated form of alpha-helix, but more in TRV than in TMV. Although the ROA spectrum of TMV shows significant positive intensity in the range approximately 1297-1312 cm(-1) characteristic of alpha-helix in a hydrophobic environment, as expected from the helix interface residues in the four-helix bundles that constitute the basic motif of the TMV coat protein fold, that of TRV shows little positive ROA intensity here. Instead TRV shows a strong positive ROA band at approximately 1315 cm(-1), of much greater intensity than bands shown here by TMV, that is characteristic of polyproline II (PPII) helix. This suggests that the additional long central and C-terminal sequences of the TRV coat proteins contain a significant amount of PPII structure, plus perhaps some beta-strand judging by a prominent sharp negative ROA band shown by TRV at approximately 1236 cm(-1), but little alpha-helix. The open flexible hydrated nature of PPII helical structure is consistent with the earlier suggestions that the additional sequences are exposed and, together with a larger amount of hydrated alpha-helix, could serve to fill the extra volume required by the larger diameter of the cylindrical TRV particles relative to those of TMV.

Published

2001

3. Tryptophan absolute stereochemistry in viral coat proteins from raman optical activity.

Author

Blanch EW, Hecht L, Day LA, Pederson DM, and Barron LD

Subjects

Bacteriophages chemistry, Circular Dichroism, Muramidase chemistry, Spectrum Analysis, Raman, Stereoisomerism, Capsid chemistry, Tryptophan chemistry

Published

2001