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Heuristic Methods for Sequence Database Searching BMI/CS 576 Colin Dewey Fall 2010.

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Presentation on theme: "Heuristic Methods for Sequence Database Searching BMI/CS 576 Colin Dewey Fall 2010."— Presentation transcript:

1 Heuristic Methods for Sequence Database Searching BMI/CS 576 www.biostat.wisc.edu/bmi576/ Colin Dewey cdewey@biostat.wisc.edu Fall 2010

2 query database www.ncbi.nlm.nih.gov/BLAST/

3 BLAST Results

4 BLAST Programs ProgramQueryDatabase BLASTPProtein BLASTNDNA BLASTX Translated DNA Protein TBLASTNProteinTranslated DNA TBLASTX Translated DNA

5 Heuristic Alignment Motivation too slow for large databases with high query traffic heuristic methods do fast approximation to dynamic programming –FASTA [Pearson & Lipman, 1988] –BLAST [Altschul et al., 1990; Altschul et al., Nucleic Acids Research 1997]

6 Heuristic Alignment Motivation consider the task of searching SWISS-PROT against a query sequence: –say our query sequence is 362 amino-acids long –SWISS-PROT release 38 contained 29,085,265 amino acids –finding local alignments via dynamic programming would entail matrix operations many servers handle thousands of such queries a day (NCBI > 100,000)

7 BLAST Overview Basic Local Alignment Search Tool BLAST heuristically finds high scoring local alignments typically used to search a query sequence against a database of sequences key tradeoff made: sensitivity vs. speed

8 Overview of BLAST Algorithm given: query sequence q, word length w, word score threshold T, segment score threshold S –compile a list of “words” (of length w) that score at least T when compared to words from q –scan database for matches to words in list –extend all matches to seek high-scoring alignments return: alignments scoring at least S

9 Determining Query Words Given: query sequence: QLNFSAGW word length w = 2 (default for protein usually w = 3) word score threshold T = 9 Step 1: determine all words of length w in query sequence QL LN NF FS SA AG GW

10 Determining Query Words Step 2: determine all words that score at least T when compared to a word in the query sequence QLQL=9 LNLN=10 NFNF=12, NY=9 … SAnone... words from sequence query words w/ T=9

11 Scanning the Database search database for all occurrences of query words approach: –index database sequences into table of words (pre-compute this) –index query words into table (at query time) NP NS NT NW NY QLNFSAGW MFNYT… NPGAT… QECFT… query sequence database sequences

12 Extending Hits BLAST extends hits into local alignments The original version of BLAST extended each hit separately

13 Extending Hits in Original Blast extend hits in both directions (without allowing gaps) terminate extension in one direction when score falls certain distance below best score for shorter extensions return segment pairs scoring at least S initial hit best extension b current extension c

14 Sensitivity vs. Running Time the main parameter controlling the sensitivity vs. running- time trade-off is T (threshold for what becomes a query word) –small T: greater sensitivity, more hits to expand –large T: lower sensitivity, fewer hits to expand

15 The Two-Hit Method extension step typically accounts for 90% of BLAST’s execution time key idea: do extension only when there are two hits on the same diagonal within distance A of each other to maintain sensitivity, lower T parameter –more single hits found –but only small fraction have associated 2nd hit

16 The Two-Hit Method hits with T > 12 hits with T > 10 extend these cases Figure from: Altschul et al. Nucleic Acids Research 25, 1997

17 Gapped BLAST trigger gapped alignment if two-hit extension has a sufficiently high score find length-11 segment with highest score; use central pair in this segment as seed run DP process both forward & backward from seed prune cells when local alignment score falls a certain distance below best score yet

18 Gapped BLAST seed Figure from: Altschul et al. Nucleic Acids Research 25, 1997

19 PSI ( Position Specific Iterated ) BLAST basic idea –use results from BLAST query to construct a profile matrix –search database with profile instead of query sequence –iterate

20 A Profile Matrix amino acids sequence positions A R D N C 12345678 -2.4 1.2 0.5 -0.2 -3.1

21 PSI BLAST: Searching with a Profile aligning profile matrix to a simple sequence –like aligning two sequences –except score for aligning a character with a matrix position is given by the matrix itself – not a substitution matrix A R D N C CNARsequence profile

22 PSI BLAST: Constructing the Profile Matrix Figure from: Altschul et al. Nucleic Acids Research 25, 1997 these sequences contribute to the matrix at position 108 query sequence

23 BLAST Notes it’s heuristic: may miss some good matches it’s fast: empirically, 10 to 50 times faster than Smith-Waterman large impact: –NCBI’s BLAST server handles more than 100,000 queries a day –most used bioinformatics program in the world

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