[Determination of concentration and aggregate size in influenza virus preparations using the true UV-absorption spectra].

It is well-known that influenza virus (IV) preparations are characterized by very large contribution of light-scattering to their UV absorption spectra. With the help of so called extrapolation method we managed to measure true absorption spectra of IV preparations and to determine absorption coefficients (E0.1(1) (cm, 280)) for the intact IV virions and for IV subviral particles. These coefficients turned out to equal 1.26 +/- 0.17 and 0.96 +/- 0.11 for the virions and subviral particles respectively. The knowledge of exact IV concentration is necessary for quantitative physico-chemical studies of IV virions and their components. It is also shown that UV absorption spectra measurements allow to register IV virion aggregation. Aggregation properties of IV subviral particles were also studied.

[Picosecond energy transfer between the spectral forms of pigments from the reaction center of Rhodospirillum rubrum]. / Pikosekundnyi perenos énergii mezhdu spektral'nymi formami pigmentov reaktsionnogo tsentra iz Rhodospirillum rubrum.

Absorption changes of reaction centers from Rhodospirillum rubrum at 748, 796 and 870 nm induced by 532 and 870 nm picosecond light pulses were investigated with a picosecond spectrometer. Kinetics of absorption changes at 748 and 796 had an additional bleaching when induced by the 532 nm pulse, in comparison with those at 870 nm. The additional bleaching was interpreted as a result of the excitation energy transfer via spectral forms of pigments of reaction centers. The experimental results fit the mathematical simulation of the additional bleaching for the following set of rate constant values: intrinsic conversion to the lowest excited singlet state in bacteriopheophytine molecule--10(13) s-1, energy transfer from bacteriopheophytine to P800 3.10(12) s-1, from P800 to P870--2.10(12) s-1.