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. 1998 Apr-Jun;4(2):159–168. doi: 10.3201/eid0402.980203

Accommodating error analysis in comparison and clustering of molecular fingerprints.

H Salamon 1, M R Segal 1, A Ponce de Leon 1, P M Small 1
PMCID: PMC2640126  PMID: 9621186

Abstract

Molecular epidemiologic studies of infectious diseases rely on pathogen genotype comparisons, which usually yield patterns comprising sets of DNA fragments (DNA fingerprints). We use a highly developed genotyping system, IS6110-based restriction fragment length polymorphism analysis of Mycobacterium tuberculosis, to develop a computational method that automates comparison of large numbers of fingerprints. Because error in fragment length measurements is proportional to fragment length and is positively correlated for fragments within a lane, an align-and-count method that compensates for relative scaling of lanes reliably counts matching fragments between lanes. Results of a two-step method we developed to cluster identical fingerprints agree closely with 5 years of computer-assisted visual matching among 1,335 M. tuberculosis fingerprints. Fully documented and validated methods of automated comparison and clustering will greatly expand the scope of molecular epidemiology.

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Selected References

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