A hydrophilic azobenzene-bearing amino acid for photochemical control of a restriction enzyme BamHI.

A novel hydrophilic and negatively charged azobenzene-bearing amino acid, 4'-carboxyphenylazophenylalanine (azoAla 1), has been designed and synthesized for investigation of the photochemical regulation of the enzyme activity. The properties of photoisomerization and thermal stability of the cis-isomer were similar to those of a commonly used phenylazophenylalanine (azoAla 2). For photochemical control of the enzyme, these two azobenzene-bearing amino acids were incorporated into the specific position at the dimer interface of a restriction enzyme BamHI. These trans-azobenzene derivatives in the BamHI suppressed the enzymatic activity, and the following photoirradiation at 366 nm induced the recovery of its activity. Although the activities of both azoAla-BamHI mutants were same level after a long time irradiation, the recovery of the activity of azoAla 1-BamHI was faster than that of azoAla 2-BamHI with a short time irradiation. This result suggests that the negatively charged carboxylate group introduced into an azobenzene moiety affects the behavior of azoAla in the protein scaffold during the trans-cis photoisomerization.

Aspects of the adaptive response to very low doses of radiation and other agents.

When human lymphocytes and other cells are pre-exposed to very low doses of ionizing radiation and subsequently exposed to a high dose, less genetic damage, i.e., fewer chromosome aberrations, is found than is observed in cells that had not been pre-exposed. This has been termed the adaptive response and has been attributed to the induction of a repair mechanism by the low dose exposure. Several experiments have now been carried out on this adaptive response to better characterize the phenomenon. (A) Experiments with differential display of mRNAs indicate that human lymphocytes exposed to 2 cGy of X-rays have somewhat different mRNAs expressed than do unexposed cells. This is providing access to DNA that might be involved in adaptation. (B) Other experiments with embryonic cells from transgenic mice that are deficient in superoxide dismutase (SOD) have shown that the adaptive response is unrelated to the amount of SOD in the cells, and thus is independent of superoxide radicals. (C) Experiments in which very low doses of various restriction enzymes were electroporated into human lymphocytes have shown that low levels of double-strand DNA breaks alone are able to induce the adaptive response. (D) Experiments in which human male lymphocytes (XY chromosome constitution) and human female lymphocytes (XX chromosome constitution) were cocultivated have shown that adaptation is not caused by a change in the rate of cell progression to mitosis after a challenge dose, and is a further indication that cell stage sensitivity is not a factor in the adaptive response.

On the regulation and diversity of restriction in Escherichia coli.

The effect of UV irradiation on restriction mediated by four endogenous restriction systems of E. coli K-12 was investigated using a uniform testing method. Restriction by all four systems was reduced when treated cells were separately challenged with lambda phage carrying modification patterns that elicit restriction by each system. The response of each system was genetically and physiologically distinct.

Different mechanisms for SOS induced alleviation of DNA restriction in Escherichia coli.

The alleviation of DNA restriction during the SOS response in Escherichia coli has been further investigated. With the EcoK DNA restriction system UV irradiated wild-type cells show a 10(4)-fold increase in ability to plate non-modified lambda phage and a 3-4 fold increase in transformation by non-modified plasmid DNA. A role for the umuDC genes of E coli in the process of SOS-induced restriction alleviation was identified by showing that a umuC122::Tn5 mutant could alleviate EcoK restriction to only 5% that of wild-type levels. Although umuDC are better characterized for their pivotal role in SOS induced mutagenesis, it is demonstrated here that umu-dependent alleviation of EcoK restriction is a transient process in which umu-dependent mutagenesis plays little part. A second form of SOS induced alleviation of DNA restriction is described in this paper involving the McrA restriction system. The mcrA gene is shown to be encoded within a defective prophage called e14 situated at the 25 min region on the Escherichia coli genetic map. e14 is known to abortively excise from the chromosome after SOS induction and it is demonstrated in this report that mcrA is lost from the genome after SOS induction as part of e14. This results in co-ordinate decrease in the level of McrA restriction within a population of cells.

Restriction patterns of model DNA treated with 5,6-dihydroxyindole, a potent cytotoxic intermediate of melanin synthesis: effect of u.v. irradiation.

The interaction of 5,6-dihydroxyindole, a putative cytotoxic intermediate of melanin synthesis, with model lambda phage DNA has been investigated by using type II restriction endonucleases and CsCl buoyant density centrifugation. As evidenced by agarose gel electrophoresis and density gradient profiles, the 5,6-dihydroxyindole or u.v. treated DNAs, restricted or not, are modified. U.v. irradiation enhances 5,6-dihydroxyindole binding to DNA, but no sequence specific binding was observed. The action of L-3,4-dihydroxyphenylalanine on the restriction patterns of lambda phage DNA was also investigated and the effect appeared smaller, by qualitative evaluation, than that produced by 5,6-dihydroxyindole.