Using statistical properties of short subsequences in microbial identification

Sergei Chumakov; Catherine Putonti; B. Montgomery Pettitt; George Fox; Richard C. Willson; Yuriy Fofanov

Using statistical properties of short subsequences in microbial identification

Sergei Chumakov, Catherine Putonti, B. Montgomery Pettitt, George Fox, Richard C. Willson, Yuriy Fofanov

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The comparative analysis of distributions of the presence/absence of short subsequences of different length ("n-mers", n = 5 - 20) in more than 100 microbial genomes has been performed. Our results show that for organisms, which are not close relatives of each other, the presence/absence of different 10-20-mers in their genomes are not correlated. For close biological relatives, some correlation of the presence of n-mers appears, but is not as strong as expected. Suppressed correlations among the n-mers present in different genomes lead to the possibility of using random sets of n-mers (with appropriately chosen n) to discriminate genomes of different organisms with a low probability of error. We have performed in silico experiments to demonstrate that the presence/absence pattern of 1000 random oligomers of length 12-13 in a bacterial genome is sufficiently characteristic to readily and unambiguously distinguish any known bacterial genome from any other.

Original language	English (US)
Title of host publication	Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04
Editors	F. Valafar, H. Valafar
Pages	363-367
Number of pages	5
State	Published - 2004
Event	Proceedings of the International Conference on Mathematics and Engineering Techniques in medicine and Biological Sciences, METMBS'04 - Las Vegas, NV, United States Duration: Jun 21 2004 → Jun 24 2004

Publication series

Name	Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04

Other

Other	Proceedings of the International Conference on Mathematics and Engineering Techniques in medicine and Biological Sciences, METMBS'04
Country/Territory	United States
City	Las Vegas, NV
Period	6/21/04 → 6/24/04

Keywords

Microarray
Pathogen identification

ASJC Scopus subject areas

Engineering(all)

Cite this

Chumakov, S., Putonti, C., Pettitt, B. M., Fox, G., Willson, R. C., & Fofanov, Y. (2004). Using statistical properties of short subsequences in microbial identification. In F. Valafar, & H. Valafar (Eds.), Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04 (pp. 363-367). (Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04).

Using statistical properties of short subsequences in microbial identification. / Chumakov, Sergei; Putonti, Catherine; Pettitt, B. Montgomery et al.
Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04. ed. / F. Valafar; H. Valafar. 2004. p. 363-367 (Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Chumakov, S, Putonti, C, Pettitt, BM, Fox, G, Willson, RC & Fofanov, Y 2004, Using statistical properties of short subsequences in microbial identification. in F Valafar & H Valafar (eds), Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04. Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04, pp. 363-367, Proceedings of the International Conference on Mathematics and Engineering Techniques in medicine and Biological Sciences, METMBS'04, Las Vegas, NV, United States, 6/21/04.

Chumakov S, Putonti C, Pettitt BM, Fox G, Willson RC, Fofanov Y. Using statistical properties of short subsequences in microbial identification. In Valafar F, Valafar H, editors, Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04. 2004. p. 363-367. (Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04).

Chumakov, Sergei ; Putonti, Catherine ; Pettitt, B. Montgomery et al. / Using statistical properties of short subsequences in microbial identification. Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04. editor / F. Valafar ; H. Valafar. 2004. pp. 363-367 (Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, METMBS'04).

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N2 - The comparative analysis of distributions of the presence/absence of short subsequences of different length ("n-mers", n = 5 - 20) in more than 100 microbial genomes has been performed. Our results show that for organisms, which are not close relatives of each other, the presence/absence of different 10-20-mers in their genomes are not correlated. For close biological relatives, some correlation of the presence of n-mers appears, but is not as strong as expected. Suppressed correlations among the n-mers present in different genomes lead to the possibility of using random sets of n-mers (with appropriately chosen n) to discriminate genomes of different organisms with a low probability of error. We have performed in silico experiments to demonstrate that the presence/absence pattern of 1000 random oligomers of length 12-13 in a bacterial genome is sufficiently characteristic to readily and unambiguously distinguish any known bacterial genome from any other.

AB - The comparative analysis of distributions of the presence/absence of short subsequences of different length ("n-mers", n = 5 - 20) in more than 100 microbial genomes has been performed. Our results show that for organisms, which are not close relatives of each other, the presence/absence of different 10-20-mers in their genomes are not correlated. For close biological relatives, some correlation of the presence of n-mers appears, but is not as strong as expected. Suppressed correlations among the n-mers present in different genomes lead to the possibility of using random sets of n-mers (with appropriately chosen n) to discriminate genomes of different organisms with a low probability of error. We have performed in silico experiments to demonstrate that the presence/absence pattern of 1000 random oligomers of length 12-13 in a bacterial genome is sufficiently characteristic to readily and unambiguously distinguish any known bacterial genome from any other.

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Using statistical properties of short subsequences in microbial identification

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Keywords

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