Synthesis of camphecene derivatives using click chemistry methodology and study of their antiviral activity.

A series of seventeen tetrazole derivatives of 1,7,7-trimethyl-[2.2.1]bicycloheptane were synthesized using click chemistry methodology and characterized by spectral data.

[Interaction with esterases and mechanism of synergistic action of thio- and dithiophosphates containing the fragments of N-acylated glycine and beta-alanine].

We studied the interaction between O,O-diethyl-S-[(N-acyl-N-alkoxycarbonylalkyl)aminomethyl]thiophosphates and mammalian cholinesterases as well as esterases from insect tissue extracts by kinetic methods and disc electrophoresis. The coefficients of combined effect of these compounds or their dithioanalogs with permethrin were determined. The obtained data suggest that the synergistic effect on the common cockroaches and houseflies is chiefly due to carboxylesterase inhibition by monothioderivatives and monooxygenase suppression by dithioderivatives, respectively.

[Specific interaction between esterases and 2-butylthio-2-thio-1,3,2-oxazaphosphorynane and its cyclic and acyclic analogs].

We studied the anticholinesterase and anticarboxylesterase effects of 1,3,2-oxazaphosphorynane derivatives and certain cyclic and acyclic analogs on the two enzymes of homoiotherms (ACE from human erythrocytes and BuCE from horse serum) as well as the enzymes from insect tissues (the nerve cord of the American cock-roach and the cephalic region of the domestic fly). The differences in in vitro antiesterase activity of cyclic thionic and the corresponding oxo derivatives of phosphorinane were revealed. The mechanism of the esterase active center phosphorylation not only splitting off the outgoing group (in vivo) but also opening the cycle by P-O bond (in vitro and possibly in vivo) is usually proposed to explain the higher inhibiting activity of the thionic compounds compared to the oxonic ones.

[Mechanism of action of 2-aryloxy-2-thio-1,3,2-oxazaphosphorinane pesticides].

The interaction of 2-aryloxy-2-thio-1,3,2-oxazaphosphorinanes exhibiting nematocide, insecticide/acaricide, and synergetic activities with monoamine oxidases and the interaction of the corresponding oxones, 2-aryloxy-2-oxo-1,3,2-oxazaphosphorinanes, with various cholinesterases, carboxyl esterases, and monoamine oxidases were studied. We showed that the thioderivatives inhibited monoamine oxidases, whereas oxones, which are, as a rule, weak cholinesterase inhibitors, strongly inhibited carboxyl esterases of the American cockroach and were transformed with monoamine oxidases into the strong cholinesterase inhibitors, acyclic phosphamidates. This allowed us to explain the low toxicity of the thioderivatives, the high toxicity of the oxoderivatives, and the great difference in toxicities of thio- and oxocompounds in the 1,3,2-oxazaphosphorinane series.

[Mechanism of action of thiophosphoroorganic insectoacaricides containing fragments of N-carbaalkoxylated amino acids].

Toxicity and insecticide and acaricide activity of compounds (1) is significantly dependent on the nature of amino acid (n = 1 or 2) and substituents in carbamate and amino acid ester groups (R and R1). Investigation of interaction of these compounds with mammalian carboxylesterases, and the appropriate "oxones" with choline esterases of mammal and arthropoda revealed that the lower toxicity and activity of beta-alanine derivatives (n = 2) compared with glycine derivatives (n = 1) are due to the more rapid hydrolysis by carboxylesterases (detoxication). The low toxicity of dithiophosphonate with R = Me, R1 = Bu(i), n = 1 and the high toxicity of its isomer with R = Bu(i), R1 = Me, n = 1 are associated with the more rapid oxidative cleavage of isobutyl group in comparison with the other substituents, because detoxication occurs by the cleavage of R1 and activation--by that of R respectively.

[The interaction of phoscarban with the esterases of houseflies and synanthropic cockroaches].

Interactions of phoscarban and its "oxon" with the esterase complex of the house-fly imago and four species of synanthropic cockroaches were studied. Phoscarban and its oxon have a wide spectrum of effects on the esterase complex in cockroaches and flies. These compounds are not specific inhibitors of any of the zones of esterase activity.