Anticoagulant serine fibrinogenases from Vipera lebetina venom: structure-function relationships

Amino acid sequences of two anticoagulant serine fibrinogenases - alpha- and beta-fibrinogenase (VLAF and VLBF) from Vipera lebetina venom have been deduced from the cDNA sequences encoding the enzymes. The mature protein sequences of 234 amino acids (VLAF) and 233 amino acids (VLBF) exhibit significant similarity with other snake venom serine proteinases. Both enzymes contain the catalytic triad His57, Asp102, Ser195, and twelve conserved cysteines forming six disulfide bridges. Unlike typical trypsin-like serine proteinases, they lack the third aspartate, Asp189 which is replaced by Gly189. VLBF is a typical representative of arginine esterases - beta-fibrinogenases. alpha-Fibrinogenase, VLAF, is unique among snake venom serine proteinases with homologous structure. Until now there is no evidence of the anticoagulant serine enzymes degrading fibrinogen alpha-chain only and lacking esterolytic activity.