Anhui Jingke Biotechnology Co., Ltd. boasts an R&D team of over 60 members, including 5 senior professors, technical specialists and doctoral supervisors as well as 10 postgraduates graduated from well-known domestic universities.
Our research team features solid academic foundations and abundant practical experience alongside outstanding comprehensive professionalism. With profound expertise in respective disciplines, the researchers leverage advanced technical theories and practical know-how to drive continuous innovation and advancement of scientific research.
In terms of technical development, the R&D team owns a complete theoretical knowledge framework and robust technical capabilities. Keeping abreast of global cutting-edge scientific progress, the team integrates world-leading technologies and concepts to translate state-of-the-art research findings into practical industrial applications.
The R&D center is also equipped with complete professional infrastructure and experimental facilities to underpin all research activities. The laboratory is furnished with various advanced instruments and equipment, creating favorable experimental conditions for all researchers.
Furthermore, our R&D team actively participates in domestic and international academic exchanges and collaborations, establishing extensive cooperative ties with numerous prestigious universities and research institutes. Such regular communication helps expand researchers’ academic horizons, absorb advanced knowledge and upgrade overall research competency.
High-throughput screening is characterized by microscale assay, rapid detection, high sensitivity and precise quantification. Supported by automated operating systems and high-precision testing equipment, it enables rapid and high-accuracy screening and analysis of massive sample pools for preliminary selection of superior strains or host cells. The strain engineering system further optimizes pre-screened excellent strains or cells to fulfill high-yield biosynthesis of target products via gene knockout, gene insertion, genetic engineering, cell cloning, amplification and induced differentiation.
Integrating high-throughput screening and strain engineering forms an efficient, rapid and accurate comprehensive technical system with broad application prospects in pharmaceutical R&D, cell therapy, synthetic biology and other fields.
Enzyme molecular modification remodels enzyme spatial conformation in a targeted manner to improve catalytic efficiency, enhance structural stability, eliminate or reduce enzyme immunogenicity and alter substrate specificity, thereby endowing enzymes with industrial application value. Subsequent immobilization via adsorption, entrapment, cross-linking and other techniques anchors enzymes onto solid carriers, retaining high catalytic performance while enabling repeated or continuous production run, easy separation from reaction products, which has been widely adopted in industrialized production of various biological enzymes.
Continuous-flow production is a streamlined manufacturing process accomplishing sequential feeding, chemical reaction, separation and drying within a continuous workflow for bulk product fabrication. It effectively boosts production efficiency, cuts manufacturing cost, reduces material waste and lessens environmental footprint.
Combined with green chemistry principles including renewable feedstock utilization, waste minimization and eco-friendly synthetic routes, this technology realizes safe chemical manufacturing and sustainable industrial development.
