The discovery, characterization and crystallographically determined binding mode of an FMOC-containing inhibitor of HIV-1 protease
A pharmacophore derived from the structure of the dithiolane derivative of haloperidol bound in the active site of the HIV-1 protease (HIV-1 PR) has been used to search a three-dimensional database for new inhibitory frameworks. This search identified an FMOC-protected N-tosyl arginine as a lead candidate. A derivative in which the arginine carboxyl has been converted to an amide has been crystallized with HIV-1 PR and the structure has been determined to a resolution of 2.5 A with a final R-factor of 18.5%. The inhibitor binds in an extended conformation that results in occupancy of the S2, S1', and S3' subsites of the active site. Initial structure-activity studies indicate that: (1) the FMOC fluorenyl moiety interacts closely with active site residues and is important for binding; (2) the N(G)-tosyl group is necessary to suppress protonation of the arginine guanidinyl terminus; and (3) the arginine carboxamide function is involved in interactions with the water coordinated to the catalytic aspartyl groups. FMOC-protected arginine derivatives, which appear to be relatively specific and nontoxic, offer promise for the development of useful HIV-1 protease inhibitors.
Rutenber, Earl E.,De Voss, James J.,Hoffman, Lucas,Stroud, Robert M.,Lee, Kwan H.,Alvarez, Juan,McPhee, Fiona,Craik, Charles,Ortiz De Montellano, Paul R.
p. 1311 - 1320
(2007/10/03)
Method for protecting guanidino group and restoring the same
A guanidino group in an amino acid or a peptide can be protected with a specific protective group, i.e. lower alkoxybenzenesulfonyl group or tri-lower alkylbenzenesulfonyl group, and the protective group may easily be removed without affecting the amino acid or the peptide to be derived from the protected amino acid or peptide. Thus, the method is useful in the related chemical industries, especially in the peptide synthesis.
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(2008/06/13)
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