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Proceedings Paper

Automated high-throughput purification of genomic DNA from whole blood using Promega's MagneSil paramagnetic particles with either the Max Yield or MagneSil One normalized purification methods
Author(s): Rex M. Bitner; Susan C. Koller; Jacqui Sankbeil
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Paper Abstract

Two different methods of automated high throughput purification of genomic DNA from human whole blood in 96 well plates are described. One method uses MagneSilTM paramagnetic particles to purify a maximal amount of the DNA present in the sample. Another method, the MagnesilTM ONE system, allows for the purification of a predetermined amount of DNA from human whole blood. Protocols for the purification of 100 ng or, alternatively 1 ug, of human genomic DNA from whole blood using MagneSilTM paramagnetic particles and a Beckman BioMekTM FX robot are described. With the maximal yield purification system, typical DNA yields fall in the range of 4-9 ug of DNA from 200ul of human whole blood, depending upon the white cell content of donor sample. For situations where DNA achiving is desired, or when the number of downstream sample applications is not clearly defined (e.g. multiple SNP analyses) the maximal yield method is usually preferred. However, in situations with a defined downstream application (e.g. criminal databasing or use of a defined set of amplifications) where purifying DNA in a narrow concentrate range streamlines the high throughput purification and analysis process, the automated MagneSilTM ONE purification system is the method of choice. DNA from either method is suitable for applications such as PCR, STR, READITTM SNP analysis, and multiplexed PCR systems such as Promega's Y-chromosome deletion detection system.

Paper Details

Date Published: 18 July 2003
PDF: 8 pages
Proc. SPIE 4966, Microarrays and Combinatorial Technologies for Biomedical Applications: Design, Fabrication, and Analysis, (18 July 2003); doi: 10.1117/12.478357
Show Author Affiliations
Rex M. Bitner, Promega Corp. (United States)
Susan C. Koller, Promega Corp. (United States)
Jacqui Sankbeil, Promega Corp. (United States)


Published in SPIE Proceedings Vol. 4966:
Microarrays and Combinatorial Technologies for Biomedical Applications: Design, Fabrication, and Analysis
Dan V. Nicolau; Ramesh Raghavachari, Editor(s)

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