[Effect of disulfide bonds on lysozyme dynamics].

The effect of destruction of disulfide bonds on the dynamics of proteins was studied by an example of lysozyme by the methods of molecular dynamics. In lysozyme, in the absence of disulfide bonds, the characteristic times of motions of secondary structure devices increased 3-7 times, whereas the amplitudes of fluctuations of secondary structure devices practically did not vary. In the absence of S-S-bonds, the volume of the molecule decreased approximately by 2%, primarily due to a "cleft" between the major and the small domains of lysozyme.

[Molecular dynamics of bending fluctuations in the protein secondary structures].

A comparative study of the dynamics of protein secondary structure elements by the example of alpha-helices of myoglobin, barnase, polylysine, and polyglycine and beta-layers of barnase and GFP was carried out by the methods of molecular dynamics. The effective Young's moduli of both free secondary structure elements and those built in the protein globule were determined. A heterogeneity of the elastic properties of the secondary structure elements was found.

[Comparative study of effect of infrared, submillimeter, and millimeter electromagnetic radiation on wing somatic mutations in Drosophila melanogaster induced by gamma-irradiation].

It was shown that the number of spontaneous and gamma-radiation-induced somatic mutations in wing cells of fruit flies (third instar larvae) exposed to laser irradiation of submillimeter range (lambda = 81.5 microns) was significantly lower than in control. Laser irradiation did not affect the number of recombinations.