Abstract

Chondroitin sulfate (CS) is a linear polysaccharide, which is widely used in medical, health care and other fields. Compared with the traditional animal tissue extraction method, microbial synthesis of CS has the advantages of controllability and easiness of scaling-up. In order to achieve an efficient synthesis of chondroitin sulfate A (CSA), we constructed a recombinant Pichia pastoris GS115 strain capable of synthesizing chondroitin (Ch) from glycerol by introducing the Ch synthase coding genes kfoC, kfoA and UDP-glucose dehydrogenase coding gene tuaD into the P. pastoris chromosome. The titer of Ch reached 2.6 g/L in fed-batch cultures upon optimizing the synthesis pathway of Ch. After further expressing the chondroitin-4-O-sulfotransferase (C4ST), we developed a one-pot biosynthesis system for CSA production by directly adding 3'-adenosine-5'-phosphoryl sulfate and C4ST into the high-pressure homogenized recombinant P. pastoris cells. Eventually, controllable synthesis of 0-40% CSA with different sulfation degrees were achieved by optimizing the catalytic conditions. The one-pot biosynthesis system constructed here is easy to operate and easy to scale up for industrial production of CSA. The idea of the present study may also facilitate the biosynthesis of other glycosaminoglycan, for instance, heparin.

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