| Abstrakt: |
New possibility of the FoldUnfold program for prediction of short disordered regions (loops), which appears by using the short window width (3 amino acid residues), was described. For three representatives of the proteins G family the FoldUnfold program predicted almost all short loops and yield results are well compatible with the X-ray structure data. We have classified the loops predicted in the protein Ras-p21 structure in two types. In the first type, loops have high values of the Debye-Waller factor typical of the so-called functional loops (flexible loops). In the other type, loops have lower values of the Debye-Waller factor and can be considered as loops connecting secondary structure elements (rigid loops). When the results of prediction with the use of our program are compared with the results of other programs (PONDR, RONN, DisEMBL, PreLINK, IUPred, GlobPlot 2, FoldIndex), it is seen that the first enables far better prediction of short loop positions. Use of FoldUnfold for ubiquitin-like domain h-PLIC-2 allows to resolve such task as definition of boundary between the structured and unstructured regions in proteins with a big portion of disordered regions. The FoldUnfold program defines a clear boundary between the structured and unstructured regions at amino acid residues 30-31,whereas each of the other programs outlines the boundary from the 28-th amino acid residues through the 70th. |
