作者
Wenwen Wang,Zeting Ning,Yameng Zhu,Bin Zeng,Xiaoyun Li,Changxin Wu,Y.-B. Dong,Yuqing Li,Mengda Zhang,Jinhua Zheng,Bo Lian,Hongyan Qiu,Huanhuan Wang,Danrong Lu,Qingdong Zhang
摘要
Chondroitinase (CSase) derived from microorganisms is valuable for structural studies and preparation of chondroitin sulfate (CS) oligosaccharides. In this study, a new chondroitinase C, CHa3, which belongs to the PL35 family, was identified. The optimal activity of CHa3 was observed in NaH2PO4-Na2HPO4 buffer (pH 8.0) at 20 °C. Its specific activity toward chondroitin sulfate A, chondroitin sulfate C, chondroitin sulfate D, and chondroitin sulfate was 1.11, 4.78, 2.63, and 1.91 U/mg protein, respectively. CHa3 digests substrate chains, acts as an endolytic lyase, and shows a significant preference for C-unit-enriched substrates such as CSC; thus, it is classified as chondroitinase C. The catalytic activity of CHa3 was resisted by O/A/D/E units when the CS substrates were degraded and was resisted by 2-O sulfated regions when the heparin substrate was digested. Tetrasaccharides in the final products of CS, which were degraded by CHa3, included ΔC-A, ΔC-C, ΔC-D, and ΔC-E. The residues Tyr267 and His417 played crucial roles in the catalytic process, and Arg109, Arg116, Asn212, Asn213, Trp214, and Ser416 may participate in the binding process for CHa3. This study of CHa3 contributes to our understanding of the PL35 family and provides a foundation for investigating the structure of CS.