A method for producing protease pS273R of the African swine fever virus.

The pS273R protease of the African swine fever virus (ASFV) is responsible for the processing of the viral polyproteins pp220 and pp62, precursors of the internal capsid of the virus. The protease is essential for a productive viral infection and is an attractive target for antiviral therapy. This work presents a method for the production of pS273R in E.

Novel His-tag Variants for Insertion Inside Polypeptide Chain.

His-tags are protein affinity tags ubiquitously used due to their convenience and effectiveness. However, in some individual cases, the attachment of His-tags to a protein's N- or C-termini resulted in impairment of the protein's structure or function, which led to attempts to include His-tags inside of polypeptide chains. In this work, we describe newly designed internal His-tags, where two triplets of histidine residues are separated by glycine residues to avoid steric hindrances and consequently minimize their impact on the protein structure.

A Split-Marker System for CRISPR-Cas9 Genome Editing in Methylotrophic Yeasts.

Methylotrophic yeasts such as and (sin. and , respectively) are commonly used in basic research and biotechnological applications, frequently those requiring genome modifications. However, the CRISPR-Cas9 genome editing approaches reported for these species so far are relatively complex and laborious.

GroEL-A Versatile Chaperone for Engineering and a Plethora of Applications.

Chaperones play a vital role in the life of cells by facilitating the correct folding of other proteins and maintaining them in a functional state, being themselves, as a rule, more stable than the rest of cell proteins. Their functional properties naturally tempt investigators to actively adapt them for biotechnology needs. This review will mostly focus on the applications found for the bacterial chaperonin GroE and its counterparts from other organisms, in biotechnology or for research purposes, both in their engineered or intact versions.

Biosynthetic Protein Folding and Molecular Chaperons.

The problem of linear polypeptide chain folding into a unique tertiary structure is one of the fundamental scientific challenges. The process of folding cannot be fully understood without its biological context, especially for big multidomain and multisubunit proteins. The principal features of biosynthetic folding are co-translational folding of growing nascent polypeptide chains and involvement of molecular chaperones in the process.

Production of a toxic polypeptide as a fusion inside GroEL cavity.

The system is developed for efficient biosynthetic production of difficult-to-express polypeptides. A target polypeptide is produced fused into T. thermophilus GroEL chaperonin polypeptide chain in such a way that it is presented inside the GroEL cavity near the substrate binding surface.

Versatile format of minichaperone-based protein fusion system.

Hydrophobic recombinant proteins often tend to aggregate upon expression into inclusion bodies and are difficult to refold. Producing them in soluble forms constitutes a common bottleneck problem. A fusion system for production of insoluble hydrophobic proteins in soluble stable forms with thermophilic minichaperone, GroEL apical domain (GrAD) as a carrier, has recently been developed.

Study of rubella candidate vaccine based on a structurally modified plant virus.

A novel rubella candidate vaccine based on a structurally modified plant virus - spherical particles (SPs) - was developed. SPs generated by the thermal remodelling of the tobacco mosaic virus are promising platforms for the development of vaccines. SPs combine unique properties: biosafety, stability, high immunogenicity and the effective adsorption of antigens.

A minichaperone-based fusion system for producing insoluble proteins in soluble stable forms.

We have developed a fusion system for reliable production of insoluble hydrophobic proteins in soluble stable forms. A carrier is thermophilic minichaperone, GroEL apical domain (GrAD), a 15 kDa monomer able to bind diverse protein substrates. The Met-less variant of GrAD has been made for further convenient use of Met-specific CNBr chemical cleavage, if desired.

Efficient refolding of a hydrophobic protein with multiple S-S bonds by on-resin immobilized metal affinity chromatography.

The efficient refolding of recombinant proteins produced in the form of inclusion bodies (IBs) in Escherichia coli still is a complicated experimental problem especially for large hydrophobic highly disulfide-bonded proteins. The aim of this work was to develop highly efficient and simple refolding procedure for such a protein. The recombinant C-terminal fragment of human alpha-fetoprotein (rAFP-Cterm), which has molecular weight of 26 kDa and possesses 6 S-S bonds, was expressed in the form of IBs in E.

High-efficient expression, refolding and purification of functional recombinant C-terminal fragment of human alpha-fetoprotein.

Human alpha-fetoprotein (hAFP) is an oncofetal protein which is a common cancer marker. Conjugates of native hAFP with different cytostatic agents inhibit growth of cancer cells in vivo and in vitro. The hAFP interacts with its receptor (AFPR) on the surface of cancer cells via its C-terminal domain.

Characterisation of bacterially expressed structural protein E2 of hepatitis C virus.

The E2 glycoprotein is a structural component of the hepatitis C virus (HCV) virion. It interacts with putative cellular receptors, elicits production of neutralising antibodies against the virus, and is involved in viral morphogenesis. The protein is considered as a major candidate for anti-HCV vaccine.