- Subtilisin
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Name= Subtilisin
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Structure =
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Type =Serine protease
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Diseases=Subtilisin (serine endopeptidase) is a
protease (a protein-digestingenzyme ) initially obtained from "Bacillus subtilis ".Subtilisins belong to the group of
serine protease s which initiate thenucleophilic attack on thepeptide (ester) bond through a serine residue at theactive site . They are physically and chemically well characterized enzymes. Subtilisins typically have molecular weights of about 20,000 to 45,000 dalton. They can be obtained from soil bacteria, for exampleBacillus amyloliquefaciens . Subtilisins are secreted in large amounts from many "Bacillus" species.Subtilisins are widely used in commercial products, for example in laundry and dishwashing detergents, cosmetics, food processing [http://www.lsbu.ac.uk/biology/enztech/proteases.html] , skin care ointments [http://www.xenna.com/product_callex.html] , contact lens cleaners, and for research purposes in synthetic organic chemistry.
The structure of subtilisin has been determined by
X-ray crystallography . It is a 275 residueglobular protein with several alpha-helices, and a largebeta-sheet . It is structurally unrelated to thechymotrypsin -clan of serine proteases, but uses the same type ofcatalytic triad in theactive site . This makes it the classic example ofconvergent evolution .Charge-relay Site of Subtilisin
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 physiologicalpH . 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 (ie. 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 cleavespeptide bond s with its partially negative oxygen atom. This is possible due to the nature of the charge-relay site of subtilisin.References
Deber, C.M. (Lecturer). (2006, Sep. 29). BCH210H1F. [Lecture] . Toronto: University of Toronto.
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