Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:3.4.22.25 (chymopapain)
430 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The amino acid sequence of the cysteine proteinase CC-III from the latex of the subtropical species Carica candamarcensis Hook has been determined with the exception of seven residues (pos. 180-186). It was deduced from the sequence analysis of the whole chain and peptides obtained by tryptic, chymotryptic, peptic and thermolysinolytic hydrolysis. CC-III consists of 214 amino acid residues. Out of a total of eight cysteine residues, six are located at positions involved in the formation of the three disulfide bridges stabilizing the structure of papain related enzymes. CC-III from Carica candamarcensis is a glycoprotein with the carbohydrate moiety bound to asparagine at position 44. Out of 210 residues compared with the sequences of the four cysteine proteinases of Carica papaya L., CC-III shares 125 identical ones (59.5%) with papain, 142 (67.6%) with papaya proteinase IV, 146 (69.5%) with papaya proteinase III and 156 (74.3%) with chymopapain. All amino acid residues constituting the active site and subsite S2 in chymopapain are conserved in CC-III with the exception of the substitution Leu157--> Val in the latter. This fact as well as the highest degree of identity between CC-III and chymopapain point to a similar specificity of both enzymes and thus CC-III might be a suitable substitute for chymopapain as a chemonucleolytic agent.
...
PMID:Primary structure of CC-III, the glycosylated cysteine proteinase from the latex of Carica candamarcensis Hook. 798 Aug 69

A cysteine protease from ginger rhizome (GP-II) cleaves peptides and proteins with proline at the P(2) position. The unusual specificity for proline makes GP-II an attractive tool for protein sequencing and identification of stably folded domains in proteins. The enzyme is a 221 amino acid glycoprotein possessing two N-linked oligosaccharide chains (8% glycosylated by weight) at Asn99 and Asn156. The availability of the sequence of these glycosyl chains afforded the opportunity to observe their structure and impact on protein conformation. The three-dimensional structure of GP-II has been determined by X-ray crystallography to a resolution of 2.1 A (overall R-factor = 0.214, free R = 0.248). The overall structure of GP-II is similar to that of the homologous cysteine proteases papain, actinidin, and glycyl endopeptidase, folding into two distinct domains of roughly equal size which are divided by a cleft. The observed N-linked glycosyl chains (half the total carbohydrate sequence) participate in both crystallographic and noncrystallographic contacts, tethering the proteins together via hydrogen bonds to the carbohydrate residues without intervening ordered water molecules. The putative S(2) binding pocket (the proline recognition site) was identified by superposition of the GP-II structure with structures of four previously determined papain-inhibitor complexes. The particular enzymic amino acids forming the S(2) pocket of GP-II (Trp, Met, and Ala) are similar to those found in the proline binding pockets of the unrelated enzymes alpha-lytic protease and cyclophilin. However, there is no conserved three-dimensional arrangement of these residues between the three enzymes (i.e., no proline binding motif). Thus, the particular amino acids found at S(2) are consistent with a binding pocket for a moiety with the steric characteristics and charge distribution of proline. Size exclusion is also a mechanism for selectivity compared to the S(2) binding pocket of papain. The S(2) binding pocket of GP-II greatly restricts the size of the side chain which could be bound because of the occurrence of a tryptophan in place of the corresponding tyrosine in papain. In light of the nature of the binding pocket, the specificity of GP-II for proline over other small nonpolar amino acids may be attributed to a direct effect of proline on the substrate peptide backbone conformation.
...
PMID:The 2.1 A structure of a cysteine protease with proline specificity from ginger rhizome, Zingiber officinale. 1051 17

---