Rapid pulsed field separation of DNA molecules up to 250 kb.

Abstract

Pulsed field gel electrophoresis (PFGE) is capable of resolving a wide size range of DNA molecules which would all co-migrate in conventional agarose gels. We describe pulsed field gel conditions which permit DNA fragments of up to 250 kilobases (kb) to be separated in only 3.5 h. The separations, which employ commercially available gel boxes, are achieved using conditions which deviate significantly from traditional pulsed field conditions. PFGE separations have been thought to require reorientation angles greater than 90 degrees to be effective. However, reorientation angles of 90 degrees and even less will resolve DNA fragments a few hundred kb and smaller approximately 5 x faster than with standard pulsed field conditions. The mobility of DNA fragments separated with 90 degrees reorientation angles is switch time-dependent, as is seen for DNA run with the commonly used reorientation angle of 120 degrees. With DNA fragments of several hundred kb and smaller, higher field strengths may be used, resulting in still greater increases in separation speed. The conditions described allow DNA from large insert bacterial clones, such as those using cosmid, Fosmid, P1, bacterial artificial chromosome (BAC), or P1-derived artificial chromosome (PAC) vectors, to be prepared, digested and analyzed on gels within a single working day.