Total Chemical Synthesis of a D-Enzyme: The Enantiomers of HIV-1 Protease Show Reciprocal Chiral Substrate Specificity
- 5 June 1992
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 256 (5062) , 1445-1448
- https://doi.org/10.1126/science.1604320
Abstract
The D and L forms of the enzyme HIV-1 protease have been prepared by total chemical synthesis. The two proteins had identical covalent structures. However, the folded protein-enzyme enantiomers showed reciprocal chiral specificity on peptide substrates. That is, each enzyme enantiomer cut only the corresponding substrate enantiomer. Reciprocal chiral specificity was also evident in the effect of enantiomeric inhibitors. These data imply that the folded forms of the chemically synthesized D- and L-enzyme molecules are mirror images of one another in all elements of the three-dimensional structure. Enantiomeric proteins are expected to display reciprocal chiral specificity in all aspects of their biochemical interactions.Keywords
This publication has 13 references indexed in Scilit:
- In situ neutralization in Boc‐chemistry solid phase peptide synthesisInternational Journal of Peptide and Protein Research, 1992
- MOLSCRIPT: a program to produce both detailed and schematic plots of protein structuresJournal of Applied Crystallography, 1991
- Prebiotic sources of biomolecular handednessChirality, 1991
- A simple, continuous fluorometric assay for HIV proteaseInternational Journal of Peptide and Protein Research, 1990
- Structure of Complex of Synthetic HIV-1 Protease with a Substrate-Based Inhibitor at 2.3 Å ResolutionScience, 1989
- Polypeptide chain binding proteins: Catalysts of protein folding and related processes in cellsCell, 1989
- Effective blocking of HIV‐1 proteinase activity by characteristic inhibitors of aspartic proteinasesFEBS Letters, 1989
- CHEMICAL SYNTHESIS OF PEPTIDES AND PROTEINSAnnual Review of Biochemistry, 1988
- Ion spray interface for combined liquid chromatography/atmospheric pressure ionization mass spectrometryAnalytical Chemistry, 1987
- Principles that Govern the Folding of Protein ChainsScience, 1973