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A Compressing Method for Genome Sequence Cluster using Sequence Alignment

A Compressing Method for Genome Sequence Cluster using Sequence Alignment. Author: Kwang Su Jung, Nam Hee Yu, Seung Jung Shin, Keun Ho Ryu Publisher: International Conference on Computer and Information Technology ICCIT 2008 Presenter: Chin-Chung Pan Date: 2010/10/27. Outline. Introduction

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A Compressing Method for Genome Sequence Cluster using Sequence Alignment

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  1. A Compressing Method for Genome Sequence Cluster using SequenceAlignment Author: Kwang Su Jung, Nam Hee Yu, Seung Jung Shin, Keun Ho RyuPublisher: International Conference on Computer and Information Technology ICCIT 2008 Presenter: Chin-Chung Pan Date:2010/10/27

  2. Outline • Introduction • The proposed method • The representative sequence of a cluster • The sequence distance • The soring matrix • The Edit-Script, ε • Creating a member sequence from a representative sequence • Evaluation

  3. Introduction • We suggest a new compressing technique for these sequence clusters using the Smith-Waterman sequence alignment method. • We select a representative sequence which has a minimum sequence distance (the Smith-Waterman alignment score) in a cluster by scanning the distances of all sequences. • Then, only store representative sequences and Edit-Scripts for each cluster into a database.

  4. The representative sequence of a cluster

  5. The sequence distance • The Euclidean distance is widely used when calculating distance between objects in a common cluster. • In the case of a genome sequence, applying the Euclidean distance is not acceptable because sequences do not have any absolute position.

  6. The sequence distance

  7. The soring matrix

  8. The Edit-Script, ε • Starting Index is an index that starts a matched sequence in sequence Sx. • Ending Index indicates an index that ends the matched sequence Sy. • Prior MatSeq denotes a prior sequence of the matched sequence in Sy. • Posterior MatSeq describes the posterior sequence of the matched sequence in sequence Sy.

  9. The Edit-Script, ε • Focusing on Matched Sequences, there exist three kinds of events such as insertion, deletion, and substitution. • We can simply express the Edit-Script, ε = { {Prior MatSeq}, Starting Index, {operator1, operator2, operator3, … }, Ending Index, {Posterior MatSeq}. 01234567891011121314 Sequence Sx: R N M K ─ G I T A T Y L S Sequence Sy: T I M K R G I I A ─ Y L S W P 012345678910 ε={ {TI}, 2, { ins(2,R),sub(5,I), del(7,T) }, 12, {WP} }

  10. Creating a member sequence from a representative sequence • RS: Representative Sequence. • MS: Member Sequence. Change Operators MS id, RS id Database Matched Sequence of RS Matched Sequence of MS Member Sequence RS of Cluster Edit-Scripts of MS (Starting, Ending Index) Prior MatSeq Posterior MatSeq

  11. Evaluation • The size reduction was discovered when the homology (sequence identity) between sequences was over 50% for 2KB, 55% for 4KB, and 52% for 8KB.

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