Comparative study of impact of animal source on physical, structural, and biological properties of bone xenograft.

Background: Due to the unique features of xenografts including large supply from donors, minimal risk of human disease transmission, and the lower cost of preparation and production compared to autografts and allografts, they are considered as attractive alternatives to traditional bone grafts. The animal source accessibility and production process have a direct correlation with the cost and quality of the final product. To evaluate whether the animal source of the bone has any effect on the physicochemical and histological properties of the final xenograft, three deproteinized bone grafts were prepared from sources that are easily available in Iran, including the bovine (DBB), camel (DCB), and ostrich (DOB).

A new triple chimeric protein as a high immunogenic antigen against anthrax toxins: theoretical and experimental analyses.

: Anthrax is a zoonotic disease caused by and it can be deadly in 6 days. Considerable efforts have been conducted toward developing more effective veterinary and human anthrax vaccines because these common vaccines have several limitations. secretes a tripartite toxin, comprising protective antigen (PA), edema factor (EF), and lethal factor (LF).

Generation and screening of efficient neutralizing single domain antibodies (VHHs) against the critical functional domain of anthrax protective antigen (PA).

Since anthrax is an acute infectious disease, detection and neutralization of the toxins of pathogenic Bacillus anthracis are of great importance. The critical role of protective antigen (PA) component of tripartite anthrax toxin in toxin entry into the host cell cytosol provided a great deal of effort to generate monoclonal antibodies against this constitute. Regarding the importance of anthrax detection/neutralization and unique physicochemical and pharmacological features of VHHs as single domain antibodies, the present study aimed to generate VHHs against the receptor binding domain of PA, termed PAD4.

Display of B. pumilus chitinase on the surface of B. subtilis spore as a potential biopesticide.

Background: Chitinases can inhibit the growth of many fungal diseases which are a great threat for global agricultural production. Biological control of pathogens like fungi, is believed to be one of the best ways to eliminate the adverse effects of plant pathogens. To this end, we expressed and displayed a chitinase from Bacillus pumilus (ChiS) on the surface of Bacillus subtilis spores, as a biocontrol agent.

Expression and Secretion of Cyan Fluorescent Protein (CFP) in B. subtilis using the Chitinase Promoter from Bacillus pumilus SG2.

Background: Improved cyan fluorescent protein (ICFP) is a monochromic, green fluorescent protein (GFP) derivative produced by Aequorea macrodactyla in a process similar to GFP. This protein has strong absorption spectra at wavelengths 426-446 nm. ICFP can be used in cell, organelle or intracellular protein labeling, investigating the protein-protein interactions as well as assessing the promoter activities.

A conformation-based phage-display panning to screen neutralizing anti-VEGF VHHs with VEGFR2 mimicry behavior.

The potency of VEGF-based anti-angiogenic strategies in cancer therapy and the brilliant characteristics of VHHs motivated us to directly block VEGF binding to its receptor with neutralizing single domain antibodies, thereby fading away the VEGF signaling pathway. Considering with high resolution crystal structure of VEGF-RBD/VEGFR2 complex, we could adopt a combinatorial screening strategy: stringent panning and competition ELISA, to direct the panning procedure to dominantly screen the favorable binders that bind and block the key functional regions of VEGF. Based on competition assay, the majority of the screened clones (82%) showed the VEGFR2 mimicry behavior for binding to VEGF molecule.

The design of a new truncated and engineered alpha1-antitrypsin based on theoretical studies: an antiprotease therapeutics for pulmonary diseases.

Alpha 1- antitrypsin (α1AT) a 54 kDa glycoprotein is a protease inhibitor. In the absence of α1AT, elastase released by lung macrophages, was not inhibited and lead to elastin breakdown and pulmonary problems such as emphysema or COPD. α1AT has three site of N-glycosylation and a characteristic reactive central loop (RCL).

Efficient binding of nickel ions to recombinant Bacillus subtilis spores.

We report the use of recombinant spores of Bacillus subtilis as a potential bioremediation tool for adsorption of nickel ions. The spore surface protein CotB, previously used for the display of heterologous antigens, was engineered to express eighteen histidine residues within the spore coat. Wild type and recombinant spores were then analyzed to assess their efficiency in adsorbing nickel ions, and the latter proved to be significantly more efficient than wild type spores in metal-binding.