Z Huang1, J H Jett, R A Keller. 1. Chemical Science and Technology Division, Los Alamos National Laboratory, New Mexico 87545, USA.
Abstract
BACKGROUND: A flow cytometry-based, ultrasensitive fluorescence detection technique has been developed that demonstrates unique advantages in the analysis of large DNA fragments over the currently most widely used technology, pulsed-field gel electrophoresis (PFGE). The technique described herein is used to characterize the restriction fingerprints of the bacteria genome Staphylococcus aureus in this study. METHODS: The isolation of the bacterial genomic DNA and the subsequent complete digestion by a restriction endonuclease were performed inside an agarose plug. Electroelution was used to move the DNA fragments out-of the agarose plug into a solution containing low concentrations of spermine and spermidine, added to stabilize the large DNA fragments. DNA was stained with the bisintercalating dye thiazole orange homodimer (TOTO-1) and subsequently introduced into our ultrasensitive flow cytometer from a capillary. RESULTS: Individual DNA fragments up to 351 kbp were successfully handled and sized. The histograms of the burst sizes were generated from signals associated with individual fragments in <7 min with <2 pg of DNA. The sizing accuracy was better than 98%. In contrast, standard PFGE takes approximately 20 h and requires approximately 1 microg of DNA with a sizing accuracy of approximately 90%. CONCLUSIONS: With the demonstrated success and advantages, our approach has the potential of being applied to fast, accurate bacteria species and strain identification.
BACKGROUND: A flow cytometry-based, ultrasensitive fluorescence detection technique has been developed that demonstrates unique advantages in the analysis of large DNA fragments over the currently most widely used technology, pulsed-field gel electrophoresis (PFGE). The technique described herein is used to characterize the restriction fingerprints of the bacteria genome Staphylococcus aureus in this study. METHODS: The isolation of the bacterial genomic DNA and the subsequent complete digestion by a restriction endonuclease were performed inside an agarose plug. Electroelution was used to move the DNA fragments out-of the agarose plug into a solution containing low concentrations of spermine and spermidine, added to stabilize the large DNA fragments. DNA was stained with the bisintercalating dye thiazole orange homodimer (TOTO-1) and subsequently introduced into our ultrasensitive flow cytometer from a capillary. RESULTS: Individual DNA fragments up to 351 kbp were successfully handled and sized. The histograms of the burst sizes were generated from signals associated with individual fragments in <7 min with <2 pg of DNA. The sizing accuracy was better than 98%. In contrast, standard PFGE takes approximately 20 h and requires approximately 1 microg of DNA with a sizing accuracy of approximately 90%. CONCLUSIONS: With the demonstrated success and advantages, our approach has the potential of being applied to fast, accurate bacteria species and strain identification.
Authors: Elena M Filippova; Denise C Monteleone; John G Trunk; Betsy M Sutherland; Stephen R Quake; John C Sutherland Journal: Biophys J Date: 2003-02 Impact factor: 4.033
Authors: Matthew M Ferris; Xiaomei Yan; Robbert C Habbersett; Yulin Shou; Cheryl L Lemanski; James H Jett; Thomas M Yoshida; Babetta L Marrone Journal: J Clin Microbiol Date: 2004-05 Impact factor: 5.948