Quantitative PCR as a method for monitoring retroviral infection on the gene level.

For monitoring retroviral infection on the gene level, we propose the use of quantitative PCR with two internal standards: one for a fragment of the viral genome and the other for the host cell marker gene. The standards (one for HIV and the other for a human DNA marker gene HLA-DQ alpha) were constructed by PCR-mediated joining of DNA fragments and were found to be effective in quantitative PCR despite rather different structures of amplified fragments in target and standard DNAs. The number of HIV DNA copies was found to be 2-500 per 1000 lymphocytes in blood from HIV-infected patients and up to 5000+ per 1000 cells in chronically infected cell lines.

Constructing DNA by polymerase recombination.

Polymerase-mediated recombination based on DNA polymerase chain reactions (PCRs) has been used to carry out directed joining at a present point of two DNA fragments initially contained in a plasmid and a single-stranded synthetic DNA. The process includes copying of these fragments by PCR with generation of an overlapping homologous region. Such overlap of 12 base pairs in length was found to be sufficient to provide further DNA joining also by use of PCR.

Interaction of EcoRII restriction and modification enzymes with synthetic DNA fragments. VI. The binding and cleavage of substrates containing nucleotide analogs.

The present study deals with the binding and cleavage by EcoRII endonuclease of concatemer DNA duplexes containing EcoRII recognition sites (formula; see text) in which dT is replaced by dU or 5-bromodeoxyuridine, or 5'-terminal dC in the dT-containing strand is methylated at position 5. The enzyme molecule is found to interact with the methyl group of the dT residue of the DNA recognition site and to be at least in proximity to the H5 atom of the 5'-terminal dC residue in dT-containing strand of this site. Modification of any of these positions exerts an equal effects on the cleavage of both DNA strands.

Interaction of EcoRII restriction and modification enzymes with synthetic DNA fragments. V. Study of single-strand cleavages.

Concatemer DNA duplexes which contain at the EcoRII restriction endonuclease cleavage sites (formula; see text) phosphodiester, phosphoamide or pyrophosphate internucleotide bonds have been synthesized. It has been shown that this enzyme did not cleave the substrate at phosphoamide bond. EcoRII endonuclease catalyzes single-strand cleavages both in dA- and dT-containing strands of the recognition site if the cleavage of the other strand has been blocked by modification of scissile bond or if the other strand has been cleaved.

Processive cleavage of concatemer DNA duplexes by Eco RII restriction endonuclease.

Eco RII restriction endonuclease cleaves synthetic DNA-duplexes in which the recognition sites of this enzyme (5'...

Interaction of EcoRII restriction and modification enzymes with synthetic DNA fragments. EcoRII endonuclease cleavage of substrates with repeated natural and modified recognition sites.

Interaction of EcoRII restriction endonuclease with a set of synthetic concatemer DNA duplexes with natural and modified sites for this enzyme has been studied. DNA duplexes with repeated natural sites are cleaved by EcoRII. Substitution of central AT-pair in the recognition site for a non-complementary TT-or AA-pair reduces the rate of cleavage, this effect being much more pronounced in the last case.