[Defensins in the honeybee antinfectious protection].

Specific conditions of the honeybee life honeybee life require the presence of effective mechanisms of antiinfectious protection whose one of the most important components are defensins--the family of antimicrobial peptides. In the honeybee, defensins are present in the form of two different peptides--defensin 1 and 2 that are similar between each other only by 55.8 %. Defensin 1 synthesized in salivary glands plays an important role in social immunity, whereas defensin 2 synthesized by cells of lat body and lymph is an important factor in the system of the honeybee individual immunity. Defensins are inducible, are controlled by interaction of Toll and Imd signal pathways and have a large specter of antimicrobial action.

[Local honeybee (Apis mellifera mellifera L.) populations in the Urals].

The COI-COII intergenic region of mitochondrial DNA (mtDNA) was studied in local honeybee (Apis mellifera mellifera) L. populations from the Middle and Southern Urals. Analysis of bee colonies in these regions revealed apiaries enriched in families descending from A. m. mellifera in the maternal lineage. These results confirm the suggestion of preservation of A. m. mellifera refuges in the Urals and provide grounds for work on the preservation of the gene pool of this bee variety, valuable for all Russia.

[Polymorphism of locus COI-COII of mitochondrial DNA in the honeybee Apis mellifera L. from southern Ural region]. / Polimorfizm lokusa COI-COII mitokhondrial'noi DNK medonosnoi pchely Apis mellifera L. na Iuzhnom Urale.

In spite of high biodiversity within the honeybee species Apis mellifera L., only one geographical race, the dark-colored forest honeybee A. m. mellifera, is uniquely adapted to severe environmental conditions of Eurasian forest and forest-steppe zones. Within the vast range of this race, only single isolates remain, where the dark forest honeybee is purebred. The Bashkir population is supposed to be one of these isolates. Molecular-genetic assessment of the state of the gene pool of this population revealed that southern honeybee races were introduced into the Bashkortostan Republic with great intensity, which was above the assimilation capacity of the population. The main part of the former range of the Bashkir population represents a hybrid zone with approximately equal ratio between gene pools of local and introduced honeybees. Our studies provide the possibility to single out one extant reserve of A. m. mellifera, Burzyanskii raion, in which the proportion of local bees in the gene pool is 0.98.

[Use of a PCR method for controlling pure-breeding of honeybees Apis mellifera mellifera L. in the southern Urals]. / Ispol'zovanie metoda PTsR dlia kontrolia chistoporodnosti pchelosemei Apis mellifera mellifera L. v usloviiakh iuzhnogo Urala.

A key problem of honeybee (Apis mellifera mellifera) breeding in the Southern Urals is its cross-breeding with the Caucasian honeybee Apis mellifera caucasica. Mitochondrial DNA (mtDNA) in these subspecies differ in the length of a fragment localized between genes CO-I and CO-II, which can be used as a marker. A pair of 20-mer primers for PCR was chosen by means of computer design in order to determine the fragment size in both of the subspecies. The amplified fragment was shown to have a length of 350 bp in A. m. caucasica and 600 bp in A. m. mellifera. The difference in length results from the different ratio between two main elements P and Q, which comprise a major part of this sequence in these subspecies: a copy of P element and two copies of Q element in A. m. mellifera, and a copy of Q element only in A. m. caucasica. This sharply defined distinction allows us to use PCR for differentiating the subspecies, estimating the heterogeneity in the colonies, and rejecting queens in the selection process because of the maternal inheritance of the studied character. The nucleotide sequence of the amplified mtDNA fragment of A. m. mellifera was determined.