Treatment of chronic relapsing urinary tract infection with antibiotics selected by AtbFinder.

We report the case of a 46-year-old patient who, after renal cancer surgery, developed a recurrent urinary tract infection that lasted for more than 2 years. Despite repeated antibiotic courses, including broad-spectrum drugs chosen using conventional antibiotic susceptibility testing, multiple reinfections followed. The patient was successfully treated once antibiotics were selected with AtbFinder. Unlike routine antimicrobial susceptibility methods, which select antibiotics effective only against a "lead bacterial pathogen," AtbFinder identifies antibiotics that target the mixture of bacteria at the infection site. This case demonstrates the ability of AtbFinder to successfully select antibiotics for the treatment of relapsing urinary tract infections.

A new biological definition of life.

Here we have proposed a new biological definition of life based on the function and reproduction of existing genes and creation of new ones, which is applicable to both unicellular and multicellular organisms. First, we coined a new term "genetic information metabolism" comprising functioning, reproduction, and creation of genes and their distribution among living and non-living carriers of genetic information. Encompassing this concept, life is defined as organized matter that provides genetic information metabolism. Additionally, we have articulated the general biological function of life as Tetz biological law: "General biological function of life is to provide genetic information metabolism" and formulated novel definition of life: "Life is an organized matter that provides genetic information metabolism". New definition of life and Tetz biological law allow to distinguish in a new way living and non-living objects on Earth and other planets based on providing genetic information metabolism.

Complete Genome Sequence of the Streptococcus sp. Strain VT 162, Isolated from the Saliva of Pediatric Oncohematology Patients.

Streptococcus sp. strain VT 162 was isolated from the saliva of pediatric oncohematology patients. Its full genome is 2,045,418 bp. The availability of this genome will provide insights into the composition of microbial flora among pediatric oncohematology patients and the host interaction and pathogenicity of this species.

Syntheses and anti-tubercular activity of ß-substituted and α,ß-disubstituted peptidyl ß-aminoboronates and boronic acids.

Tuberculosis is still affecting millions of people worldwide, and new resistant strains of Mycobacterium tuberculosis are being found. It is therefore necessary to find new compounds for treatment. In this paper, we report the synthesis and in vitro testing of peptidyl ß-aminoboronic acids and ß-aminoboronates with anti-tubercular activity.

Boron-containing peptidomimetics--a novel class of selective anti-tubercular drugs.

Medical treatment for tuberculosis is complicated nowadays by the appearance of new multiresistant strains, and therefore, new antibiotics are in great need. Here, we report the synthesis and in vitro testing of a new class of highly selective antimicrobial boron-containing peptidomimetics with compounds exhibiting activity against Mycobacterium tuberculosis at ≤5 µg/mL. The new approach developed makes it possible to synthesize variously substituted ß-aminoboronic acids and their derivatives with a high level of diastereoselectivity.

Effect of extracellular DNA destruction by DNase I on characteristics of forming biofilms.

Biofilm formation plays a crucial role in the development of different infections. This study was designed to examine the effects of extracellular DNA destruction by DNase I on characteristics of forming bacterial biofilms. We have found that extracellular matrix of biofilms formed in the presence of DNase I contains extracellular DNA fragments of about 30 kb. These data support the idea that cell-free DNA is constantly released to the extracellular matrix of bacterial biofilms. Our results indicate that extracellular DNA plays an important role in the properties of forming biofilms. Biofilms formed in the presence of DNase I (5.0 microg/mL) displayed reduced biofilm biomass, total bacterial biomass, decreased viability of bacteria, and decreased tolerance to antibiotics. The fact that destruction of extracellular DNA in forming biofilms by DNase I leads to the formation of an altered microbial community with decreased tolerance to environmental factors suggests the possibility to change the characteristics of forming biofilms by modifying cell-free DNA.

Effect of DNase and antibiotics on biofilm characteristics.

The role of extracellular DNA in the maintenance of biofilms formed by gram-positive and gram-negative bacteria was studied. This study evaluated all the bacterial strains that were tested for the presence of extracellular DNA with an average size of 30 kb in the matrix. Our results indicate changes in community biomass, architecture, morphology, and the numbers of CFU in the presence of DNase. This effect seems to be common to biofilms established by various unrelated gram-positive and gram-negative bacteria. The cleavage of extracellular DNA leads to the formation of an altered biofilm that permits the increased penetration of antibiotics. Thus, the addition of DNase enhances the effect of antibiotics, resulting in decreased biofilm biomass and numbers of CFU.

The pangenome concept: a unifying view of genetic information.

A way of viewing the genetic information in all organisms on Earth as constituents of the Pangenome is proposed. According to this concept, the Pangenome is the common (collective) genetic system of all living organisms, the organic molecules and their complexes (DNA- and RNA-containing viruses, plasmids, transposons, insertion sequences) involved in the storage and transmission processes of genetic information. Pangenomic stability and variability are discussed. This concept alerts to the inherent fluidity and transmissibility of DNA among organisms of all types, including horizontal gene transfer between closely related and formally unrelated macro- and microorganisms. The roles of death and of all known food chains as universal ways of gene distribution among different organisms are discussed. The contribution of bacteria and viruses in maintaining the circulation of genes within the Pangenome is presented. This concept implies that newly emerging genes are not bound to disappear together with the death of an organism or the extinction of a species and microorganisms are the main pool of genes. Some negative aspects of the intervention of molecular genetics, biotechnology, and ecology, including the spread of transgenic plants and animals, are summarized. It is shown that this concept may be used in medicine for the prognosis of an epidemic situation, particularly newly spreading pathogens, and for the development of new methods for the prophylaxis and early diagnosis of oncologic diseases. This concept can also help to find promising approaches to the discovery of drugs with novel principles of action.