[Fluorescent fusion proteins with 10th human fibronectin domain].

In the current paper we describe a new type of hybrid molecules including red fluorescent protein mCherry and 10th type III human fibronectin domain (10Fn3) - one of the alternative scaffold proteins which can be used for the construction of antibody mimics with various binding specificity. We have constructed different gene variants encoding for the hybrid fluorescent protein and studied their expression in Escherichia coli cells. It was shown that N-terminal position of mCherry and modification of its N-terminal amino acid sequence promotes efficientbacterial expression of the hybrid protein in the soluble form. On the basis of the proposed construction we have obtained the hybrid fluorescent protein ChIBF, containing alphaVbeta3-integrin binding vari- ant of 10Fn3, and demonstrated the possibility of its utilization for the visualization of alphaVbeta3-integrin at the surface of MDCK epithelial cells by confocal microscopy.

[Production and properties of human tumor necrosis factor peptide fragments].

The tumor necrosis factor (TNF) is a proinflammatory cytokine that plays a pivotal role in the regulation of the human immune system. Studies of the TNF functional topography are a challenging task in bioengineering. We have produced genes encoding the peptides Dl (3-30), D2 (31-85), D3 (86-114), and D4 (115-157), which correspond to isolated fragments of the informational structure of TNF. These genes were expressed in E. coli cells at a high level in a soluble form. We have shown that hybrid proteins SD2 and SD4 tend to form soluble aggregates, which can be destroyed by urea treatment. Purified peptides Dl, D3, and D4 possess a similar secondary structure with dominating beta-structural elements. The analysis of the biological activity of these peptides has shown that they do not exhibit cytotoxic properties on L929 murine fibroblasts. The simultaneous addition of Dl with full-length TNF results in the concentration dependent suppression of TNF activity.

[Production of antibodies to aflatoxins].

A panel of ten monoclonal antibodies to aflatoxins B1, B2, and G2 was produced and comprehensively characterized. The affinity and cross reactivity of these antibodies were determined using the methods of direct, indirect, and competitive ELISA. The structures of monoclonal antibody genes were comprehensively studied and the variable and constant domains of the antibody genes were cloned and sequenced. Sequencing analysis confirmed the results of isotyping the light and heavy antibody chains obtained by ELISA. Variable and constant fragments of the antibody genes were cloned into a bicistron expression vector for the recombinant Fab' fragment for one of the antibodies expressed in Escherichia coli and purified. Thus, data were obtained that can be useful for the development of an aflatoxin detection system on the basis of the described monoclonal antibodies and the creation of recombinant antibodies with changed parameters of specificity using protein engineering methods.

[Deletion mutants of human granulocyte-macrophage colony-stimulating factor]. / Deletsionnye mutanty granulotsitarno-makrofagal'nogo koloniestimuliruiushchego faktora cheloveka.

To study the structure-function relationship of the human granulocyte-macrophage colony-stimulating factor (GM-CSF), genes were constructed that encode its three deletion mutants: D1, a mutant with the deletion of six amino acid residues (37-42) some of which are a part of a beta-structural region; D2, a mutant with the deletion of the unstructured six-aa sequence of a loop (45-50); and D3, a mutant with the deletion of 14 aa residues (37-50) corresponding to the A-B loop and encoded by the second exon of the gmcsf gene. The expression products of these genes in E. coli were accumulated in a fraction of insoluble proteins. The secondary structures of the mutant proteins were similar to that of the full-size GM-CSF, but the biological activity of the deletion mutants was 130 times lower than that of the GM-CSF: they stimulated the proliferation of the TF-1 cell line at 3 ng/ml concentration. The resulting proteins displayed antagonistic properties toward the full-size GM-CSF, with the inhibition degree of its colony-stimulating activity being 27%. A decrease in the mutant activity in the row D2 > D1 > D3 implies the importance of the conserved hydrophobic residues involved in the formation of the beta-structure for the formation of the GM-CSF functional conformation.

[Chaperone Caf1M stabilizes hybrid proteins containing sequences of F1 antigen subunit from Yersinia pestis]. / Shaperon Caf1M stabiliziruet gibridnye belki, soderzhashchie posledovatel'nosti sub"edinitsy F1-antigena Yersinia pestis.

The Yersinia pestis (causative agent of plague) capsule antigen is a homopolymer of Caf1 protein. Export of the subunits is mediated by the periplasmic chaperone Caf1M. To study the mechanism of Caf1M activity, two hybrid genes including coding sequences for the Caf1 signal peptide, human granulocyte-macrophage colony-stimulating factor (GM-CSF) or interleukin-1 (IL-1) receptor antagonist, and mature Caf1 were constructed and expressed in Escherichia coli. We have shown that in the absence of Caf1M the majority of Caf1 moieties within the hybrid proteins undergo proteolysis in the periplasmic space, presumably by the DegP protease. The coexpression of a gene for chaperone Caf1M significantly increased the amount of full-size hybrid proteins in the periplasm, probably as a result of stabilization of the subunits spatial structure within the hybrid. This effect was not observed in JCB571 cells, which lack periplasmic disulfide isomerase DsbA, essential for Caf1M activity.