Protein structure prediction : Zinc-binding sites, one-dimensional structure and remote homology

Shu, Nanjiang

January 2010

Predicting the three-dimensional (3D) structure of proteins is a central problem in biology. These computationally predicted 3D protein structures have been successfully applied in many fields of biomedicine, e.g. family assignments and drug discovery. The accurate detection of remotely homologous templates is critical for the successful prediction of the 3D structure of proteins. Also, the prediction of one-dimensional (1D) protein structures such as secondary structures and shape strings are useful for predicting the 3D structure of proteins and important for understanding the sequence-structure relationship. In addition, the prediction of the functional sites of proteins, such as metal-binding sites, can not only reveal the important function of proteins (even in the absence of the 3D structure) but also facilitate the prediction of the 3D structure. Here, three novel methods in the field of protein structure prediction are presented: PREDZINC, a method for predicting zinc-binding sites in proteins; Frag1D, a method for predicting the 1D structure of proteins; and FragMatch, a method for detecting remotely homologous proteins. These methods compete satisfactorily with the best methods previously published and contribute to the task of protein structure prediction. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 3: Manuscript. / Protein structure prediction

protein structure prediction

zinc-binding

profile

homology detection

shape string

Bioinformatics

Bioinformatik

Molecular biology

Molekylärbiologi

Biochemistry

Biokemi