An insulin fragment, representing the C‐terminal functionally important site of its molecule and responsible for receptor binding, was synthesized. The fragment consists of two peptides: a dipeptide (A 20‐21) and an octapeptide (B 19‐26), linked with a disulfide bond (A20‐B19). The biological activity of the newly synthesized fragment relative to insulin was assayed for the influence on glycogenesis and for the ability to stimulate glucose uptake. Comparative tests for the biological activity of the synthesized fragment and of the intact hormone allowed us to conclude that the fragment has insulin‐like properties.
The genome structure of three ciprofloxacin-resistant Mycoplasma hominis clinical isolates was studied using next-generation sequencing on the Illumina platform. The protein sequences of the studied Mycoplasma strains were found to have a high degree of homology. Mycoplasma hominis (M45, M57, MH1866) was shown to have limited biosynthetic capabilities, associated with the predominance of the genes encoding the proteins involved in catabolic processes. Multiple single-nucleotide substitutions causing intraspecific polymorphism of Mycoplasma hominis were found. The genes encoding the efflux systems ABC transporters (the ATP-binding cassette superfamily) and proteins of the MATE (multidrug and toxic compound extrusion) family were identified. The molecular mechanism of ciprofloxacin resistance of the Mycoplasma hominis M45 and M57 isolates was found to be associated with the Ser83Leu substitution in DNA gyrase subunit A. In the Mycoplasma hominis MH1866 isolate it was related to the Lys144Arg substitution in topoisomerase IV subunit A.
The characteristics of resistome and virulome structure of four carbapenem-resistant Klebsiella pneumoniae clinical strains are present in the work. Two strains belonged to the sequence-type ST395, one strain - ST2262, one strain - to the new sequence-type 5816. The genes of fimbriae, enterobactin, beta-lactamase SHV type, resistance to fosfomycin fosA and transport of fluoroquinolones oqxAB in all Klebsiella strains chromosome structure were identified. The determinants of yersineobactin and aerobactin are enriched the virulome of ST395 NNKP315 and NNKP343 strains. The aerobactin genes are located on IncHI1B plasmids (IncHI1B/FIB) which highly homologous to the virulence pLVPK and pK2044 plasmids. IncR, IncL, IncQ plasmids carrying blaOXA-48, blaCTX-M-15, blaOXA-1, blaTEM-1, qnrS1, tetA, sul1, dfrA1, aac(6 ‘)-Ib-cr, catA1, catB3 etc. were identified in these strains. As a result of in silico analysis, an assumption about the localization of the blaOXA-48 in the structure of the IncHI1B plasmid of NNKP315 strain was made. This plasmid also contains the aminoglycosidases genes inserted into a class 1 integron In822. The mutations were found in the porin proteins OmpK35, OmpK36 and OmpK37 genes, which increases the carbapenem resistance. The virulome of NNKP16 (ST2262) strain additionally includes of the iron utilization system kfuABC chromosomal genes, and the virulome of NNKP15 (ST5816) strain contains of the capsular polysaccharide kvgAS and microcin E492 genes. Additional determinants of resistance were not identified in the resistome structure of K. pneumoniae NNKP16 and only the blaCTX-M-15 gene was found in the NNKP15 strain. The absence of acquired resistance genes seems to be due to the presence of the type I-E CRISPR-Cas system. Multiple drug resistance of the studied strains is associated with mutations identified in the gene structure of porin proteins OmpK36 and OmpK37, as well as the activity of efflux systems. It was showed the stop codon formation in the nucleotide sequence of the regulatory gene ramR to both strains, which can potentially provide overexpression of AcrAB efflux proteins.
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