Building Dictionaries Of 1D and 3D Motifs By Mining The Unaligned 1D Sequences Of 17 Archaeal and Bacterial Genomes
Abstract
We have used the TEIRESIAS algorithm to carry out unsupervised pattern discovery in a database containing the unaligned ORFs from the 17 publicly available complete archaeal and bacterial genomes and build a 1D dictionary of motifs. These motifs which we refer to as seqlets account for and cover 97.88% of this genomic input at the level of amino acid positions. Each of the seqlets in this 1D dictionary was located among the sequences in Release 38.0 of the Protein Data Bank and the structural fragments corresponding to each seqlet's instances were identified and aligned in three dimensions: those of the seqlets that resulted in RMSD errors below a pre-selected threshold of 2.5 Angstroms were entered in a 3D dictionary of structurally conserved seqlets. These two dictionaries can be thought of as cross-indices that facilitate the tackling of tasks such as automated functional annotation of genomic sequences, local homology identification, local structure characterization, comparative genomics, etc.
Publication Title
Proceedings of the 7th International Conference on Intelligent Systems for Molecular Biology, ISMB 1999
Recommended Citation
Rigoutsos, I., Gao, Y., Floratos, A., & Parida, L. (1999). Building Dictionaries Of 1D and 3D Motifs By Mining The Unaligned 1D Sequences Of 17 Archaeal and Bacterial Genomes. Proceedings of the 7th International Conference on Intelligent Systems for Molecular Biology, ISMB 1999 Retrieved from https://digitalcommons.memphis.edu/facpubs/19329