The present disclosure provides engineered carboxyesterase enzymes that have the ability to catalyze amide bond formation. Also provided are polynucleotides encoding the carboxyesterase enzymes, host cells capable of expressing the engineered carboxyesterase enzymes, and methods of using the engineered carboxyesterase enzymes to make commercially valuable amides. Also provided are amides that are made using the engineered carboxyesterase enzymes.

Disclosed are an attenuation system and the use thereof for attenuating plasmodia, specifically the use of an EF1g gene for attenuating plasmodia. The attenuation system regulates the expression or degradation of the EF1g gene by using a regulatory system, thereby controlling the growth of plasmodia and achieving the attenuation of plasmodia.

An ultrasound-assisted simulated digestion method of a milk protein active peptide and an application thereof in health foods, pertaining to the technical field of intensive processing of dairy products and preparation of health foods. The method firstly employs ultrasonic pretreatment of casein and β-lactoglobulin, followed by enzymatic hydrolysis with a protease to prepare casein and ρ-lactoglobulin polypeptide, and traces the activity of the polypeptide by simulating gastrointestinal digestion, and then simulates absorption by intestinal epithelial cells with Caco-2 cells, to characterize a highly active milk protein polypeptide digested by the gastrointestinal tract and absorbed by the Caco-2 cells simulating absorption by the inner wall of the small intestine. The method has identified five such highly active milk protein polypeptides.

An ultrasound-assisted simulated digestion method of a milk protein active peptide and an application thereof in health foods, pertaining to the technical field of intensive processing of dairy products and preparation of health foods. The method firstly employs ultrasonic pretreatment of casein and β-lactoglobulin, followed by enzymatic hydrolysis with a protease to prepare casein and ρ-lactoglobulin polypeptide, and traces the activity of the polypeptide by simulating gastrointestinal digestion, and then simulates absorption by intestinal epithelial cells with Caco-2 cells, to characterize a highly active milk protein polypeptide digested by the gastrointestinal tract and absorbed by the Caco-2 cells simulating absorption by the inner wall of the small intestine. The method has identified five such highly active milk protein polypeptides.

The present invention provided the techniques and recipes for enhancing recombinant peptide production in microorganism like E. coli, Saccharomyces cerevisiae, Pichia pastoris and Bacillus subtilis. The designs of fusion protein with a polypeptide and high cell density fermentation process to over express the peptides are given. Methods for separation of polypeptides from fusion protein and methods for isolation and purification of peptides are mentioned. This invention also provides an uncomplicated and unique purification processes for manufacturing of Teriparatide, Liraglutide precursor and Semaglutide precursor with purifies of >98%.

The invention refers to a single-chain circular permuted caspase-2 comprising the following structure from N- to C-terminus: i) a small subunit of a caspase-2, or a functionally active variant thereof; and ii) a large subunit of a caspase-2, or a functionally active variant thereof, wherein said cp caspase-2 comprises one or more amino acid substitutions increasing P1′ tolerance of said cp caspase-2 compared to a cp caspase-2 without said amino acid substitutions.

Methods of synthetically producing, formulating and using secretoglobins SCGB1A1, SCGB3A2, and SCGB3A1 are provided. Methods of using secretoglobins SCGB1A1, SCGB3A2, and SCGB3A1 as therapeutic agents to affect long term patient outcomes, such as preventing severe respiratory exacerbations of underlying conditions that require medical intervention, including hospitalization are provided. Methods of producing recombinant human secretoglobins, analytical methods, pharmaceutical compositions, and methods of use to prevent the long term sequelae of acute and chronic respiratory conditions are provided.

Methods of synthetically producing, formulating and using secretoglobins SCGB1A1, SCGB3A2, and SCGB3A1 are provided. Methods of using secretoglobins SCGB1A1, SCGB3A2, and SCGB3A1 as therapeutic agents to affect long term patient outcomes, such as preventing severe respiratory exacerbations of underlying conditions that require medical intervention, including hospitalization are provided. Methods of producing recombinant human secretoglobins, analytical methods, pharmaceutical compositions, and methods of use to prevent the long term sequelae of acute and chronic respiratory conditions are provided.

The present application pertains inter alia to an isolated vertebrate cell suitable for recombinant expression of a polypeptide of interest, wherein the vertebrate cell is altered to impair the function of the endogenous protease matriptase and wherein the cell comprises at least one heterologous polynucleotide encoding a polypeptide of interest and wherein the polypeptide of interest is secreted by the cell. It was found that using respective vertebrate cells for producing a recombinant polypeptide of interest significantly reduces clipping of the polypeptide of interest that is secreted into the cell culture medium. Also provided are improved production and screening methods.

The invention relates to the uses of a new characterized TET protein showed restricted to N-terminus glycine residues exopeptidase. The invention also relates to a method comprising said use of said new characterized TET protein as a N-terminus glycine residues specific exopeptidase. The invention further relates to a support wherein it is immobilized on said new characterized TET protein as a N-terminus glycine residues specific exopeptidase.