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Subtilisin

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Subtilisin

subtilisin
Identifiers
EC number 3.4.21.62
CAS number 9014-01-1
Databases
IntEnz IntEnz view
BRENDA BRENDA entry
ExPASy NiceZyme view
KEGG KEGG entry
MetaCyc metabolic pathway
PRIAM profile
PDB structures RCSB PDB PDBe PDBsum
Gene Ontology AmiGO / EGO
Subtilisin BPN'
Crystal structure of subtilisin.[1]
Identifiers
Symbol apr
Entrez 5712479
PDB 1st2 More structures
UniProt P00782
Other data
EC number 3.4.21.62

Subtilisin is a non-specific protease (a protein-digesting enzyme) initially obtained from Bacillus subtilis.[2][3][4][5][6][7]

Subtilisins belong to subtilases, a group of serine proteases that - like all serine proteases - initiate the nucleophilic attack on the peptide (amide) bond through a serine residue at the active site. Subtilisins typically have molecular weights of about 20,000 to 45,000 dalton. They can be obtained from certain types of soil bacteria, for example, Bacillus amyloliquefaciens from which they are secreted in large amounts.

Nomenclature

Subtilisin is also known as alcalase, alcalase 0.6L, alcalase 2.5L, ALK-enzyme, bacillopeptidase A, bacillopeptidase B, Bacillus subtilis alkaline proteinase bioprase, bioprase AL 15, bioprase APL 30, colistinase, subtilisin J, subtilisin S41, subtilisin Sendai, subtilisin GX, subtilisin E, subtilisin BL, genenase I, esperase, maxatase, thermoase PC 10, protease XXVII, thermoase, superase, subtilisin DY, subtilopeptidase, SP 266, savinase 8.0L, savinase 4.0T, kazusase, protease VIII, opticlean, Bacillus subtilis alkaline proteinase, protin A 3L, savinase, savinase 16.0L, savinase 32.0 L EX, orientase 10B, protease S, serine endopeptidase).

Structure

The structure of subtilisin has been determined by X-ray crystallography. It is a 275-residue globular protein with several alpha-helices, and a large beta-sheet. It is structurally unrelated to the chymotrypsin-clan of serine proteases, but uses the same type of catalytic triad in the active site. This makes it a classic example of convergent evolution.

Mechanism of catalysis

The active site features a charge-relay network involving Asp-32, His-64, and active site Ser-221 arranged in a catalytic triad. The charge-relay network functions as follows: The carboxylate side-chain of Asp-32 hydrogen-bonds to a nitrogen-bonded proton on His-64's imidazole ring. This is possible because Asp is negatively charged at physiological pH. The other nitrogen on His-64 hydrogen-bonds to the O-H proton of Ser-221. This last interaction results in charge-separation of O-H, with the oxygen atom being more nucleophilic. This allows the oxygen atom of Ser-221 to attack incoming substrates (i.e., peptide bonds), assisted by a neighboring carboxyamide side-chain of Asn-155.

Even though Asp-32, His-64, and Ser-221 are sequentially far apart, they converge in the 3D structure to form the active site.

To summarize the interactions described above, Ser-221 acts as a nucleophile and cleaves peptide bonds with its partially negative oxygen atom. This is possible due to the nature of the charge-relay site of subtilisin.

Applications

Research tool

In molecular biology using B. subtilis as a model organism, the gene encoding subtilisin (aprE) is often the second gene of choice after amyE for integrating reporter constructs into, due to its dispensability.

Commercial

synthetic organic chemistry.

References

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