Transforming single DNA molecules into fluorescent magnetic particles for detection and enumeration of genetic variations
Howard Hughes Medical Institute · Johns Hopkins University · +3 more institutions
Abstract
Many areas of biomedical research depend on the analysis of uncommon variations in individual genes or transcripts. Here we describe a method that can quantify such variation at a scale and ease heretofore unattainable. Each DNA molecule in a collection of such molecules is converted into a single magnetic particle to which thousands of copies of DNA identical in sequence to the original are bound. This population of beads then corresponds to a one-to-one representation of the starting DNA molecules. Variation within the original population of DNA molecules can then be simply assessed by counting fluorescently labeled particles via flow cytometry. This approach is called BEAMing on the basis of four of its…
Citation impact
- FWCI
- 15.37
- Percentile
- 100%
- References
- 31
Authors
5- DDDevin DressmanCorresponding
Howard Hughes Medical Institute, Johns Hopkins University, Sidney Kimmel Comprehensive Cancer Center
- HYHai Yan
Howard Hughes Medical Institute, Johns Hopkins University, Duke University, Sidney Kimmel Comprehensive Cancer Center
- GTGiovanni Traverso
Howard Hughes Medical Institute, Johns Hopkins University, Sidney Kimmel Comprehensive Cancer Center
- KWKenneth W. Kinzler
Howard Hughes Medical Institute, Johns Hopkins University, Duke University, Johns Hopkins University Applied Physics Laboratory, Sidney Kimmel Comprehensive Cancer Center
- BVBert Vogelstein
Howard Hughes Medical Institute, Johns Hopkins University, Duke University, Johns Hopkins University Applied Physics Laboratory, Sidney Kimmel Comprehensive Cancer Center
Topics & keywords
- DNA
- Population
- Biology
- DNA sequencing
- Enumeration
- Fluorescence
- Sorting
- Gene