A new Palaearctic species of the subgenus (Diptera, Tipulidae) from the West Caucasus with a survey of the species group.

The species group in the subgenus Lunatipula is redefined and now consists of five species native to the Caucasus. () is described as new to science, and variations in the male terminalia in two populations are noted. Two subspecies ( and ) are elevated to species rank.

[Molecular, genetic and immunohistochemical investigation of carcinosarcoma of the female reproductive tract].

Tissue precursors and genesis of female reproductive tract carcinoma vis-a-vis its carcinomatous and sarcomatous patterns remain unknown. To determine the clonal origin of 17 female reproductive tract carcinomas, such molecular, genetic and immunohistochemical techniques as PCR-SSCP and/or denaturing gel electrophoresis for K-ras, p53 and PTEN genes; D17S786, CHRNB1, TP53, BAT26 and BAT40 microsatellites and immunostaining for p53 protein were used. Carcinomatous and sarcomatous components were studied separately.

[Dynamic properties of recA protein filaments from E. coli and P. aeruginosa investigated by neutron spin-echo].

Bacterial RecA protein is the key enzyme in the processes of homologous recombination, post-replication repair and induction of SOS-repair functions. While a significant amount of data on the structure of RecA protein and its functional analogs has been obtained, there is little information about the molecular dynamics of this protein. In this work we present the results of neutron spin-echo measurements of the relaxation kinetics of filaments formed by RecA proteins from E.

[Homologous DNA transferase RecA: functional activities and the search for homology by recombining DNA molecules].

Bacterial RecA protein is a prototype of ATP-dependent homologous recombinases found ubiquitously from bacteriophages up to human beings. When RecA filament is forming on single-stranded DNA in the presence of ATP, it initiates the strand exchange reaction with homologous double-stranded DNA. Among three phases of the reaction (the search for homology, the three-stranded structure annealing in conjunction with the switch of pairing, and the strand displacement) the first one is the most enigmatic and least studied.