A heparinase III (NsHep-III) from Niabella sp. was identified, cloned, and expressed as soluble form in E. coli BL21 (DE3). With heparin as substrate, the maximum activity of NsHep-III of 90.0 U·mg- 1 was achieved at pH 7.1 Tris-HCl (containing 15 mM Mg2+) and 30oC. The half-life of NsHep-III was determined to be 5 h at 30oC. The interactions between NsHep-III and substrates were studied by molecular docking. The combination of NsHep-III and a heparinase I from Bacteroides eggthii (BeHep-I) was employed to cleave heparin. Analysis of the enzymatic products of NsHep-III by SAX-HPLC showed seven different modified disaccharides, indicating that NsHep-III has a wide range of substrate specificity. The results of GPC analysis demonstrated that the average molecular weight of the product of heparin cleavage by the combination of NsHep-III/BeHep-I was reduced to 3969 Da, which accounted for 90% of all the components, and complied with the requirements of the European Pharmacopoeia. NsHep-III has notable activity and efficiency in cleaving heparin, which is potentially useful for the industrial production of low molecular weight heparin.
Keywords: Enzymatic depolymerization; Heparin; Heparinase III; Low molecular weight heparin.
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