Author:
Chan Eugene Y.,Goncalves Nuno M.,Haeusler Rebecca A.,Hatch Amie J.,Larson Jonathan W.,Maletta Anthony M.,Yantz Gregory R.,Carstea Eugene D.,Fuchs Martin,Wong Gordon G.,Gullans Steven R.,Gilmanshin Rudolf
Abstract
We have developed a rapid molecular mapping technology—Direct Linear Analysis (DLA)—on the basis of the analysis of individual DNA molecules bound with sequence-specific fluorescent tags. The apparatus includes a microfluidic device for stretching DNA molecules in elongational flow that is coupled to a multicolor detection system capable of single-fluorophore sensitivity. Double-stranded DNA molecules were tagged at sequence-specific motif sites with fluorescent bisPNA (Peptide Nucleic Acid) tags. The DNA molecules were then stretched in the microfluidic device and driven in a flow stream past confocal fluorescence detectors. DLA provided the spatial locations of multiple specific sequence motifs along individual DNA molecules, and thousands of individual molecules could be analyzed per minute. We validated this technology using the 48.5 kb λ phage genome with different 8-base and 7-base sequence motif tags. The distance between the sequence motifs was determined with an accuracy of ±0.8 kb, and these tags could be localized on the DNA with an accuracy of ±2 kb. Thus, DLA is a rapid mapping technology, suitable for analysis of long DNA molecules.
Publisher
Cold Spring Harbor Laboratory
Subject
Genetics(clinical),Genetics
Cited by
151 articles.
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