Sandbox 31

Introduction

Papain is a cysteine hydrolase (EC 3.4.22.2) that is found naturally occurring in Papaya(Carica papaya). Papain is extracted from the latex, leaves and roots of the papaya tree. Papain is a protease commonly used for cell isolation, protein structural studies, cleaving antibodies, and various other research techniques. In addition to use in research, it is commonly used in industry to tenderize meats, remove skin from hides, and clean soft contact lenses.

History

Papain was first explorer back in 1873 by G.C. Roy, who studied papaya juice. Later, papain was extracted and named by Wertz and Bouchut who noticed it had proteolytic properties. Papain was the second enzyme to have it's structure determined by x-ray crystallography. Extensive research has be done on the structure and activity of papain and its

Structure

Papain is formed from a peptide that is 212 amino acids in length. It consists of 25% and 21% . The structure also consists of three between . The disulfide bonds exist between Cys 63 and Cys 22, Cys 200 and Cys 153, and Cys 56 and Cys 95. Another important residue to the structure is Cysteine 25 which has a sulfhydryl group that plays a major role in the active site activity[[1]].

The in papain are primarily located toward the inside of the enzyme or paired by hydrophobic interactions with other hydrophobic residues to exclude water. The are located facing the exterior, in the active site, or paired with other charged residues. The charged and polar residues are hydrophilic therefore do not orient themselves to exclude water or solvent. The charged face outward due to their hydrophilic nature.

Inhibitors

There are many inhibitors of cysteine proteases like papain including antipain, cystatin, Hg2+, and Leupeptin. Leupeptin is a commonly studied inhibitor of proteases. It inhibits by binding and interacting with the active site which allows it to block the enzyme's desired protein substrate. There are many that interact with Leupeptin in the active site. The predominant interaction is from hydrophobic interactions between Leupeptin and . In addition to hydrophobic interactions, there are also some hydrogen bonding interactions to hold Leupeptin in the active site of papain. Leupeptin works well at blocking papain from its enzymatic duties.