Bioinformatics BI_E0004

title : An Optimal Algorithm for Maximum-Sum Segment and Its Application in Bioinformatics

author: Tsai-Hung Fan, Shufen Lee, Hsueh-I Lu, Tsung-Shan Tsou, Tsai-Cheng Wang, Adam Yao

year: 2003

place of pulbish : Springer Berlin Heidelberg

abstract :

We study a fundamental sequence algorithm arising from bioinformatics. Given two integers L and U and a sequence A of n numbers, the maximum-sum segment problem is to find a segment A[i,j] of A with L = j+i+1 = U that maximizes A[i]+A[i+1]+···+A[j]. The problem finds applications in finding repeats, designing low complexity filter, and locating segments with rich C+G content for biomolecular sequences. The best known algorithm, due to Lin, Jiang, and Chao, runs in O(n) time, based upon a clever technique called left-negative decomposition for A. In the present paper, we present a new O(n)-time algorithm that bypasses the left-negative decomposition. As a result, our algorithm has the capability to handle the input sequence in an online manner, which is clearly an important feature to cope with genome-scale sequences. We also show how to exploit the sparsity in the input sequence: If A is representable in O(k) space in some format, then our algorithm runs in O(k) time. Moreover, practical implementation of our algorithm running on the rice genome helps us to identify a very long repeat structure in rice chromosome 1 that is previously unknown.