TAHA designs the target gene, based on parameters like mRNA half-life and secondary structure as well as codon usage bias.

Constructs are designed based on the selection of promoter, signal peptide, terminator region, non translated regions, resistance marker etc.

After gene transfer and primary evaluation of the target protein yield, the problems are identified and removed as much as possible using different strategies in transcription, translation and secretion level. TAHA uses liquid handling robot to selects the best colony in the shortest time and in the highest accuracy.

According protein application, parameters such as media components and fermentation conditions (pH, temperature, agitation speed and style, feeding and induction regime) are optimized. We use parallel fomenters to consider several parameters and their interactions simultaneously. In this way, the optimization of fermentation process would take 1 to 2 months.

TAHA has great experience in fermentation especially for industrial enzymes. We have designed and performed some pilot and commercial plants in this field which has been risen up by our customers and international partner’s production agreement

Household detergents remove a broad range of stains from fiber surfaces. Water soluble stains are easily removed during washing. There are other stains which are removed by surfactants and other chemical elements of washing detergents. Detergent enzymes are active at the pH 7 to 11 and temperatures up to 60oC which are normal washing conditions. They also are compatible with other chemical detergent components and enzymes.

Bread and baked products are among the main nutritional sources. Enzymes are used as flour improvers. They are able to produce value-adding ingredients from compounds present in the flour. The Enzymes are also common for being used in fruit juice industry such as juice clarification, depectinization, lowering viscosity of pulps and so on. In addition, enzymes are used in creating dairy products, meat processing, and other applications.

 Producing ethanol from biomass is consisted of four main steps: biomass pretreatment, enzyme hydrolysis, fermentation and downstream processing. Bioethanol is an alternative way to reduce gasoline consumption and carbon dioxide emissions from vehicles. Cellulases which are divided into endoglucanase, cellobiohydrolases and beta-glucosidases, play a significant role in converting Lignocellulosic biomass into fermentable sugars.

We are qualified in strain development under our experts’ great experience in expressing different kinds of recombinant proteins, from lab to industrial scale.

Self Monitoring of Blood Glucose & Blood Glucose Monitoring on Smart Phones & Blood glucose, Cholesterol, triglyceride Monitoring