AI Article Synopsis
- The prediction of protein domain structural classes from primary sequences is challenging due to the gap between sequencing and structural genomics.
- Traditional predictors have struggled, with a top accuracy of just 74.1% using conventional sequence features on a standard dataset (25PDB).
- A new multiple linear regression (MLR) model was developed, converting a 440-dimensional sequence feature to a 4-dimensional structural vector, achieving an impressive accuracy of 83.1% through extensive testing on a large dataset.
Article Abstract
Because of the increasing gap between the data from sequencing and structural genomics, the accurate prediction of the structural class of a protein domain solely from the primary sequence has remained a challenging problem in structural biology. Traditional sequence-based predictors generally select several sequence features and then feed them directly into a classification program to identify the structural class. The current best sequence-based predictor achieved an overall accuracy of 74.1% when tested on a widely used, non-homologous benchmark dataset 25PDB. In the present work, we built a multiple linear regression (MLR) model to convert the 440-dimensional (440D) sequence feature vector extracted from the Position Specific Scoring Matrix (PSSM) of a protein domain to a 4-dimensinal (4D) structural feature vector, which could then be used to predict the four major structural classes. We performed 10-fold cross-validation and jackknife tests of the method on a large non-homologous dataset containing 8,244 domains distributed among the four major classes. The performance of our approach outperformed all of the existing sequence-based methods and had an overall accuracy of 83.1%, which is even higher than the results of those predicted secondary structure-based methods.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3378576 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0037653 | PLOS |
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