Classification of protein fold classes by knot theory and prediction of folds by neural networks: A combined theoretical and experimental approach

Ramnarayan, K.; Bohr, H.; Jalkanen, Karl

doi:10.1007/s00214-007-0285-7

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Access Status

Open access

Authors

Ramnarayan, K.

Bohr, H.

Jalkanen, Karl

Date

2007

Type

Journal Article

Metadata

Show full item record

Citation

Ramnarayan, Kal and Bohr, Henrik G. and Jalkanen, K.J.. 2007. Classification of protein fold classes by knot theory and prediction of folds by neural networks: A combined theoretical and experimental approach. Theoretical Chemistry Accounts 117.

Source Title

Theoretical Chemistry Accounts

DOI

10.1007/s00214-007-0285-7

Faculty

Department of Applied Chemistry

Division of Engineering, Science and Computing

Faculty of Science

School

Nanochemistry Research Institute

Remarks

The original publication is available at http://www.springerlink.com

The link to this article is:

http://dx.doi.org/10.1007/s00214-007-0285-7

URI

http://hdl.handle.net/20.500.11937/39498

Collection

Curtin Research Publications

Abstract

We present different means of classifying protein structure. One is made rigorous by mathematical knot invariants that coincide reasonably well with ordinary graphical fold classification and another classification is by packing analysis. Furthermore when constructing our mathematical fold classifications, we utilize standard neural network methods for predicting protein fold classes from amino acid sequences. We also make an analysis of the redundancy of the structural classifications in relation to function and ligand binding. Finally we advocate the use of combining the measurement of the VA, VCD, Raman, ROA, EA and ECD spectra with the primary sequence as a way to improve both the accuracy and reliability of fold class prediction schemes.