Cross Determination of Exciton Coherence Length in J-Aggregates.

The coherence length of the Frenkel excitons (Ncoh) is one of the most critical parameters governing many key features of supramolecular J-aggregates. Determining experimentally the value of Ncoh is a nontrivial task since it is sensitive to the technique/method applied, causing discrepancies in the literature data even for the same chemical compound and aggregation conditions. By using a combination of different experimental techniques including UV-vis-NIR, fluorescence emission, time-resolved photoluminescence, and transient absorption spectroscopies, we determined Ncoh values for J-aggregates of a cyanine dye. We found that the absorption spectroscopy alone - a widely used technique- fails in determining right value for Ncoh. The correct approach is based on the modification of photoluminescence lifetime and nonlinear response upon aggregation and careful analysis of the Stokes shift and electron-phonon coupling strength. This approach revealed that Ncoh of JC-1 J-aggregates ranges from 3 to 6.

[Evaluation of metabolites levels in feces of patients with inflammatory bowel diseases]. / Otsenka urovnia metabolitov v fekaliiakh patsientov s vospalitel'nymi zabolevaniiami kishechnika.

Inflammatory bowel diseases (IBD), which include ulcerative colitis (UC) and Crohn's disease (CD), are chronic intestinal inflammatory disorders with an unknown etiology. They are characterized by chronic recurrent inflammation of the intestinal mucosa and lead to a significant decrease in the quality of life and death of patients. IBD are associated with suppression of normal intestinal microflora, including a decrease in bacteria, producers of short chain fatty acids (SCFAs), exhibiting anti-inflammatory and protective properties. Among the various methods of intestinal microflora correction, fecal microbiota transplantation (FMT), which engrafts the fecal microbiota from a healthy donor into a patient recipient, is of a particular interest. As a result, a positive therapeutic effect is observed, accompanied by the restoration of the normal intestinal microflora of the patient. A significant drawback of the method is the lack of standardization. Metabolites produced by intestinal microflora, namely SCFAs, allow objective assessment of the functional state of the intestinal microbiota and, consequently, the success of the FMT procedure. Using gas chromatography and nuclear magnetic resonance spectroscopy techniques, we have analyzed concentrations and molar ratios of SCFAs in fecal samples of 60 healthy donors. Results were in good accord when comparing two methods as well as with published data. Analysis of SCFAs in feces of patients with UC (19 patients) and CD (17 patients) revealed a general decrease in the concentration of fatty acids in the experimental groups with significant fluctuations in the values in experimental groups compared to control group of healthy donors. On the limited group of IBD patients (6 patients with UC and 5 patients with CD) concentration of SCFAs before and within 30 days of observation after FMT was determined. It was shown that FMT had a significant impact on the SCFAs levels within 1 month term; tendency to reach characteristics of healthy donors is unambiguously traced for both diseases.

[Preparation of Transmembrane Fragments Growth Hormone Receptor GHR in a Cell-Free Expression System for Structural Studies].

Growth hormone somatotropin and its membrane receptor GHR, belonging to a superfamily of the type I receptors possessing tyrosine kinase activity, are involved in the intercellular signal transduction cascade and regulate a number of important physiological and pathological processes in humans. Binding with somatotropin triggers a transition of GHR between two alternative dimer states, resulting in an allosteric activation of JAK2 tyrosine kinase in the cell cytoplasm. Transmembrane domain of GHR directly involved in this complex conformational transition. It has presumably two dimerization interfaces corresponding to the "unliganded" and the active state of GHR. In order to study the molecular basis of biochemical signal transduction mechanism across the cell membrane, we have developed an efficient cell-free production system of a TM fragment of GHR, which contains its TM domain flanked by functionally important juxtamembrane regions (GHRtm residues 254-298). The developed system allows to obtain -1 mg per 1 ml of reaction mixture of 13C- and 15N-isotope-labeled protein for structural and dynamic studies of the GHR TM domain dimerization in the membrane-mimicking medium by high-resolution heteronuclear NMR spectroscopy.

Bacterial and cell-free production of APP671-726 containing amyloid precursor protein transmembrane and metal-binding domains.

More than half of the mutations associated with familiar Alzheimer's disease have been found in the transmembrane domain of amyloid precursor protein (APP). These pathogenic mutations presumably influence the APP transmembrane domain structural and dynamic properties and result in its conformational change or/and lateral dimerization. Despite much data about the pathogenesis of Alzheimer's disease, the initial steps of the pathogenesis remain unclear so far. For the investigation of the molecular basis of Alzheimer's disease, we selected amyloid precursor protein fragment APP671-726 containing the transmembrane and metal-binding domains. This fragment is the substrate of the γ-secretase complex whose abnormal activity leads to the formation of amyloidogenic Aß42 peptides. This work for the first time describes a highly effective cell-free APP671-726 production method and improved method of bacterial synthesis. Both methods yield milligram quantities of isotope-labeled protein for structural study by high resolution NMR spectroscopy in membrane mimicking milieus.

Controlled nanometric phase transitions of phospholipid membranes by plasmonic heating of single gold nanoparticles.

The development of remotely controlled nanoscopic sources of heat is essential for investigating and manipulating temperature sensitive processes at the nanoscale. Here, we use single gold nanoparticles to rapidly deposit controlled amounts of heat in nanoscopic regions of defined size. This allows us to induce and control nanoscale reversible gel-fluid phase transitions in phospholipid membranes. We exploit the optical control over the phase transition to determine the velocity of the fluid phase front into the gel phase membrane and to guide the nanoparticles to specific locations. These results illustrate how single gold nanoparticles enable local thermodynamic investigation and manipulation on nanoscale (bio-) systems.

[Treatment of patients with unformed intestinal fistulas]. / Lechenie bol'nykh s nesformirovavshimisia kishechnymi svishchami.

Experience with the treatment of 81 patient with non-formed intestinal fistulas has shown that in high small intestinal fistulas and impossibility of their obturation, the operative intervention should be early, as the conservative methods and expectant tactics lead to irreversible aggravation of the state of the patients. In forced operative interventions in patients with peritonitis, the intra-aortal administration of the drugs permits to improve the results of treatment.