Rapid DNA sequencing based upon single molecule detection.

We are developing a laser-based technique for the rapid sequencing of 40-kb or larger fragments of DNA at a rate of 100 to 1000 bases per second. The approach relies on fluorescent labeling of the bases in a single fragment of DNA, attachment of this labeled DNA fragment to a support, movement of the supported DNA fragment into a flowing sample stream, and detection of individual fluorescently labeled bases as they are cleaved from the DNA fragment by an exonuclease. The ability to sequence large fragments of DNA will significantly reduce the amount of subcloning and the number of overlapping sequences required to assemble megabase segments of sequence information.

Studies on mitochondrial type I topoisomerase and on its function.

We have reported previously that rat liver mitochondria contain a topoisomerase and have shown it to be distinct from the nuclear enzyme by its sensitivity to Berenil and ethidium bromide. We report here some additional characterization. The enzyme differs further from its nuclear counterpart in its failure to bind to ssDNA cellulose and its chromatographic behavior on Sephadex; the latter procedure yields an Mr of 44 000 for the mitochondrial and 70 000 for the nuclear enzyme.

Coupling with packaging explains apparent nonreciprocality of Chi-stimulated recombination of bacteriophage lambda by RecA and RecBC functions.

Chi (chi, 5'-GCTGGTGG) is a recombinator in RecA- and RecBC-mediated recombination in Escherichia coli. In vegetative recombination between two bacteriophage lambda strains, one with and the other without Chi (a+ chi +b- X a- chi 0b+), the chi-containing recombinant (a- chi +b-) is less abundant than the non-chi-containing recombinant (a+ chi 0b+). Previously this was taken was evidence for nonreciprocality of chi-stimulated exchange.

On the processivity of DNA replication.

In this paper we describe the nature and importance of processive enzymatic reactions in biological processes. A model is set up to describe the processive synthetic process in DNA replication, and experiments are presented to define and test the model, using the components of the T4 phage-coded five-protein (in vitro) DNA replication system of Alberts. Nossal and coworkers.