Gene cloning, expression and homology modeling of first fibrinolytic enzyme from mushroom (Cordyceps militaris)

•First study reporting cloning and sequencing of fungal fibrinolytic protease gene.•Recombinant fibrinolytic enzyme from Cordyceps militaris was expressed extracellularly in Pichia pastoris.•Recombinant enzyme degraded fibrin clot.•Homology-based 3D structure of CmFE was built using urokinase-type plasminogen activator as template.•3D model provided in-depth insight into the catalytic pocket, substrate binding sites and disulfide bridges. Fibrinolytic enzymes are important thrombolytic agents for blood-clotting disorders like cardiovascular diseases. Availability of novel recombinant fibrinolytic enzymes can overcome the shortcomings of current thrombolytic drugs. With the objective of facilitating their cost-effective production for therapeutic applications and for gaining deeper insight into their structure-function, we have cloned and expressed the first fibrinolytic protease gene from Cordyceps militaris. Cordyceps militaris fibrinolytic enzyme (CmFE) has one open reading frame of 759 bp encoding “pre-pro-protein” of 252 amino acids. Recombinant CmFE was expressed as 28 kDa extracellular enzyme in Pichia pastoris which was capable of degrading fibrin clot. A structure homology model of CmFE was developed using urokinase-type plasminogen activator. The active site contains catalytic triad His41, Asp83, Ser177 and consensus sequence of GDSGG. The substrate binding residues are Asp (171), Gly (194) and Ser (192). Its trypsin-like specificity is determined by the critical Asp171 in S1 subsite. The “oxyanion hole” is formed by backbone amide hydrogen atoms of Gly-175 and Ser-177. CmFE contains six conserved cysteines forming three disulfide linkages. This is the first study describing cloning, expression and prediction of structure-function relationship of a mushroom fibrinolytic protease. Hence it has great relevance in application of fibrinolytic enzymes as thrombolytic agents.