Bioinformatics

Clustering-based model of cysteine co-evolution improves disulfide bond connectivity prediction and reduces homologous sequence requirements.

Raimondi, D., G. Orlando, and W. F. Vranken, "Clustering-based model of cysteine co-evolution improves disulfide bond connectivity prediction and reduces homologous sequence requirements.", Bioinformatics, 2014 Dec 8.

Human-chromatin-related protein interactions identify a demethylase complex required for chromosome segregation.

Marcon, E., Z. Ni, S. Pu, A. L. Turinsky, S. Smiley Trimble, J. B. Olsen, R. Silverman-Gavrila, L. Silverman-Gavrila, S. Phanse, H. Guo, et al., "Human-chromatin-related protein interactions identify a demethylase complex required for chromosome segregation.", Cell Rep, vol. 8, issue 1, pp. 297-310, 2014 Jul 10.

Community-wide evaluation of methods for predicting the effect of mutations on protein-protein interactions.

Moretti, R., S. J. Fleishman, R. Agius, M. Torchala, P. A. Bates, P. L. Kastritis, J. P. G. L. M. Rodrigues, M. Trellet, A. M. J. J. Bonvin, M. Cui, et al., "Community-wide evaluation of methods for predicting the effect of mutations on protein-protein interactions.", Proteins, vol. 81, issue 11, pp. 1980-7, 2013 Nov.

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