Sequential DEXAS: a method for obtaining DNA sequences from genomic DNA and blood in one reaction.

Sequential DEXAS (direct exponential amplification and sequencing), a one step amplification and sequencing procedure that allows accurate, inexpensive and rapid DNA sequence determination directly from genomic DNA, is described. This method relies on the simultaneous use of two DNA polymerases that differ both in their ability to incorporate dideoxynucleotides and in the time at which they are activated during the reaction. One enzyme, which incorporates deoxynucleotides and performs amplification of the target DNA sequence, is supplied in an active state whereas the other enzyme, which incorporates dideoxynucleotides and performs the sequencing reaction, is supplied in an inactive state but becomes activated by a temperature step during the thermocycling.

Use of platinum coproporphyrin and delayed luminescence imaging to extend the number of targets FISH karyotyping.

Combinatorial use of fluorophores in multicolor fluorescence in situ hybridization (FISH) allows for the recognition of all human chromosomes. Here we introduce the concept of the use of delayed luminescence labels such as phosphorescent platinum coproporphyrins (PtCP) to extend the number of simultaneously detectable targets in multicolor FISH karyotyping. PtCP-conjugated antibodies were used in combination with conventional FISH labels such as cascade blue, fluorescein, lissamine rhodamine, Cy5, and Cy7.

Multiplex dye DNA sequencing in capillary gel electrophoresis by diode laser-based time-resolved fluorescence detection.

A new one-lane, four-dye DNA sequencing method was developed which is based on time-resolved detection and identification of fluorescently labeled primers. For fluorescent labels, we used two newly synthesized rhodamine derivatives (MR200-1, JA169), a new oxazine derivative (JA242), and a commercially available cyanine dye (CY5). The dye fluorescence was excited by a pulsed diode laser emitting at 630 nm.

Purification and properties of the 5'-3' exonuclease D10A mutant of DNA polymerase I from Streptococcus pneumoniae: a new tool for DNA sequencing.

A D10A mutation was introduced at the 5'-3' exonuclease domain of Streptococcus pneumoniae DNA polymerase I by site directed mutagenesis of the polA gene. Introduction of the mutation resulted in a drastic decrease of the 5'-3' exonucleolytic activity present in the wild-type enzyme. Moreover, the mutation at the D10 residue of the pneumococcal polymerase affected the dependency on metal activation of its 5'-3' exonucleolytic activity.

Investigations on the thermostability and function of truncated Thermus aquaticus DNA polymerase fragments.

The thermostable DNA polymerase from Thermus aquaticus (Taq polymerase) has been truncated to molecular regions essential for polymerase activity. Two truncated forms of the full-length 832 amino acid Taq polymerase have been constructed according to sequence alignments and the known domain structure of the homologous Escherichia coli DNA polymerase I (E.coli pol I): variant delta288 (lacking the N-terminal 288 amino acid portion) and variant delta413 (lacking the N-terminal 413 amino acid portion).