[Structural and functional properties of irradiated nuclear membranes at the air-water phase interface].

The monolayer technique, the methods of electron microscopy and IR-spectroscopy were used to study isolated nuclear membranes of calf thymus cells. The data obtained permitted to study the relationship between structural disorders induced by irradiation of membranes, the changes in their functional status, and the role played by a lipid component of membranes in these processes.

[Characteristics of prostaglandin E1 interaction with components of biological membranes].

To estimate the connection between physico-chemical characteristics and biological activity of prostaglandins the interaction of prostaglandin E1 with biological membrane lipids was studied. It is shown that as a result of prostaglandin interaction with phosphatidylcholine a complex is formed that behaves as an individual component and occupies in the surface layer twice as large area than the complex with prostaglandin F2 alpha. The prostaglandin E1 film collapses earlier than F2 alpha.

[Radiation sensitivity of membrane-bound glucose-6-phosphatase].

A comparative study was made of the effect of X-radiation on the membrane-bound glucoso-6-phosphatase of the nuclear membrane and microsomal fraction of calf thymus cells. Dose- and concentration-dependencies of inactivation of glucoso-6-phosphatase are indicative of a higher radiosensitivity of glucoso-6-phosphatase of nuclear membranes than that of microsomes. This difference in radiosensitivity is associated with the peculiarities of the composition and structural organization of these two membrane systems of a cell.

[Study of radiation damage to nuclear membranes by IR spectroscopy and monolayer technics].

A study was made of the effect of X-radiation on nuclear membranes. Good resolution spectra of nuclear membrane of equal effective thickness were obtained by the method of internal reflection spectroscopy in the infrared region. The experiment indicated the presence of major characteristic bands of protein and phospholipid molecular groups of non-irradiated nuclear membranes.

[Study of the physico-chemical properties of prostaglandin F2 alpha and its complexes].

To study the intracellular action mechanisms of prostaglandin F2 alpha its interaction with lipid components of biological membranes was investigated. It has been found that prostaglandin forms a complex with phosphatidylcholine and cholesterol. Immobilization ability of phospholipids is changed in the course of complex formation.