A key concept in comparing sequence collections is the issue of redundancy. The production of sequence collections free from redundancy is undoubtedly very useful, both in performing statistical analyses and accelerating extensive database searching on nucleotide sequences. Indeed, publicly available databases contain multiple entries of identical or almost identical sequences. Performing statistical analysis on such biased data makes the risk of assigning high significance to non-significant patterns very high. In order to carry out unbiased statistical analysis as well as more efficient database searching it is thus necessar), to analyse sequence data that have been purged of redundancy. Given that a unambiguous definition of redundancy is impracticable for biological sequence data, in the present program a quantitative description of redundancy will be used, based on the measure of sequence similarity. A sequence is considered redundant if it shows a degree of similarity and overlapping with a longer sequence in the database greater than a threshold fixed by the user. In this paper we present a new algorithm based on an approximate string matching' procedure, which is able to determine the overall degree of similarity between each pair of sequences contained in a nucleotide sequence database and to generate automatically nucleotide sequence collections free from redundancies.

CLEANUP: A fast computer program for removing redundancies from nucleotide sequence databases

ATTIMONELLI, Marcella;PESOLE, Graziano
1996-01-01

Abstract

A key concept in comparing sequence collections is the issue of redundancy. The production of sequence collections free from redundancy is undoubtedly very useful, both in performing statistical analyses and accelerating extensive database searching on nucleotide sequences. Indeed, publicly available databases contain multiple entries of identical or almost identical sequences. Performing statistical analysis on such biased data makes the risk of assigning high significance to non-significant patterns very high. In order to carry out unbiased statistical analysis as well as more efficient database searching it is thus necessar), to analyse sequence data that have been purged of redundancy. Given that a unambiguous definition of redundancy is impracticable for biological sequence data, in the present program a quantitative description of redundancy will be used, based on the measure of sequence similarity. A sequence is considered redundant if it shows a degree of similarity and overlapping with a longer sequence in the database greater than a threshold fixed by the user. In this paper we present a new algorithm based on an approximate string matching' procedure, which is able to determine the overall degree of similarity between each pair of sequences contained in a nucleotide sequence database and to generate automatically nucleotide sequence collections free from redundancies.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11586/126442
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