Subtle motifs: defining the limits of motif finding algorithms

doi:10.1093/bioinformatics/18.10.1382

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Bioinformatics Vol. 18 no. 10 2002
Pages 1382-1390
© 2002 Oxford University Press

Subtle motifs: defining the limits of motif finding algorithms

U. Keich ¹^,* and P.A. Pevzner ¹

¹ Department of Computer Science and Engineering, University of California San Diego, La Jolla, CA 92093, USA

Received on February 1, 2001 ; revised on March 25, 2002 ; accepted on April 25, 2002

Motivation: What constitutes a subtle motif? Intuitively, itis a motif that is almost indistinguishable, in the statisticalsense, from random motifs. This question has important practical consequences:consider, for example, a biologist that is generating a sampleof upstream regulatory sequences with the goal of finding aregulatory pattern that is shared by these sequences. If thesequences are too short then one risks losing some of the regulatorypatterns that are located further upstream. Conversely, if thesequences are too long, the motif becomes too subtle and oneis then likely to encounter random motifs which are at leastas significant statistically as the regulatory pattern itself.In practical terms one would like to recognize the sequencelength threshold, or the twilight zone, beyond which the motifsare in some sense too subtle.

Results: The paper defines the motif twilight zone where everymotif finding algorithm would be exposed to random motifs whichare as significant as the one which is sought. We also proposean objective tool for evaluating the performance of subtle motif findingalgorithms. Finally we apply these tools to evaluate the successof our MULTIPROFILER algorithm to detect subtle motifs.

Contact: keich{at}cs.ucsd.edu

^* To whom correspondence should be addressed.

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