https://www.selleckchem.com/products/AZD2281(Olaparib).html odstream infection the BHM (liquid and agar) are able to create the optimal conditions for the increase of the wide range pathogen growth.Were studied the genes encoding the virulence factors of 221 strains E. coli O6H1 (194) and E. coli O25H4 (27), isolated in 2014-2018 from stool samples of children and adults examined according to epidemic indications. Molecular methods included PCR with hybridization-fluorescence and electrophoresis detection of amplified products. The strains did not have virulence genes for diarrheagenic E. coli (DEC) pathogroups EPEC, ETEC, EIEC, EHEC, EAggEC, and belonged to the phylogenetic group B2. They contained from four to eight genes encoding virulence factors of ExPEC E. coli O6H1 - pap (68,6%), sfa (87,6%), fimH (96,4%), hly (62,4%), cnf (74,7%), iutA (97,9%), fyuA (95,9%), chu (100%); E. coli O25H4 - pap (66,7%), afa (22,2%), fimH (100%), hly (44,4%), cnf (44,4%), iutA (100%) , fyuA (100%), chu (100%). The antimicrobial susceptibility testing to 6 classes of antimicrobials (beta-lactams, fluoroquinolones, aminoglycosides, nitrofurantoin, sulfanilamide, trimethoprim / sulfamethoxazole) according the EUCAST. 60,3% of E. coli O6H1 were sensitive to antibiotics, E. coli O25H4 remained sensitive to carbapenems and nitrofurans. Extended-spectrum cephalosporins resistance was due to the production ESBL (CTX-M). The 57,1% resistant strains of E. coli O6H1 and 100% of E. coli O25H4 strains belonged to the MDR phenotype. The XDR phenotype had one in five MDR strains of E. coli O6H1 and E. coli O25H4. All strains of E. coli O25H4 belonged to ST131. Given the important role of E. coli in human pathology, detection of virulence genes should be performed to confirm the etiological significance of the isolated strain.A new original domestic set of reagents has been developed for the determination of class G immunoglobulins to individual human herpes virus antigens of type 7 by the method