University of Dhaka

Department of Genetic Engineering &
Biotechnology, University of Dhaka
Dhaka-1000, Bangladesh

Enzymes

  • Enzymes (molecular mass 13-150 kDa)
  • The most common snake venom enzymes include Acetylcholinesterases, L-amino acid oxidases, Serine proteinases, Metalloproteinases and Phospholipases A2.
  • Higher catalytic efficiency, thermal stability and resistance to proteolysis make these enzymes attractive models for biochemists, enzymologists and structural biologists.
  • Summary table:

Among hundreds, even thousands of proteins found in venom, there are toxins, neurotoxins in particular, as well as nontoxic proteins (which also have pharmacological properties) [2], and many enzymes, especially hydrolytic ones: phospholipases, thrombin-like pro-coagulant, and kallikrein-like serine proteases and metalloproteinases (hemorrhagins), which damage vascular endothelium.Phosphodiesterases interfere with the prey's cardiac system, mainly to lower the blood pressure. Phospholipase A2 causes hemolysis by lysing the phospholipidcell membranes of red blood cells.[6] Amino acid oxidases and proteases are used for digestion. Amino acid oxidase also triggers some other enzymes and is responsible for the yellow colour of the venom of some species. Hyaluronidase increases tissue permeability to accelerate absorption of other enzymes into tissues. Some snake venoms carry fasciculins, like the mambas (Dendroaspis), which inhibit cholinesterase to make the prey lose muscle control[7].Higher catalytic ef?ciency, thermal stability and resistance to proteolysis make theseenzymes attractive models for biochemists, enzymologists and structuralbiologists.

There are many enzymes, especially hydrolytic ones: phospholipases, thrombin-like pro-coagulant, and kallikrein-like serine proteases and metalloproteinases (hemorrhagins), which damage vascular endothelium.Phosphodiesterases interfere with the prey's cardiac system, mainly to lower the blood pressure. Phospholipase A2 causes hemolysis by lysing the phospholipidcell membranes of red blood cells. Amino acid oxidases and proteases are used for digestion.

Type Name Origin
Oxydoreductases Lactate dehydrogenase Elapidae
  L-amino-acid oxidase All species
  Catalase All species
Transferases Alanine amino transferase  
Hydrolases Phospholipase A2 All species
  Lysophospholipase Elapidae, Viperidae
  Acetylcholinesterase Elapidae
  Alkaline phosphatase Bothropsatrox
  Acid phosphatase Deinagkistrodonacutus
  5'-Nucleotidase All species
  Phosphodiesterase All species
  Deoxyribonuclease All species
  Ribonuclease 1 All species
  Adenosine triphosphatase All species
  Amylase All species
  Hyaluronidase All species
  NAD-Nucleotidase All species
  Kininogenase Viperidae
  Factor-X activator Viperidae, Crotalinae
  Heparinase Crotalinae
  a-Fibrinogenase Viperidae, Crotalinae
  β-Fibrinogenase Viperidae, Crotalinae
  a- β-Fibrinogenase Bitisgabonica
  Fibrinolytic enzyme Crotalinae
  Prothrombin activator Crotalinae
  Collagenase Viperidae
  Elastase Viperidae
Carbon-nitrogen lyases Glucosamine ammonium lyase  
Metalloproteinases