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Literature DB >> 7738607

Finding potential DNA-binding compounds by using molecular shape.

P D Grootenhuis¹, D C Roe, P A Kollman, I D Kuntz.

Abstract

For the first time a general shape-search docking algorithm (DOCK) has been applied to the minor and major grooves of A-, B- and Z-type DNA dodecamers and to an intercalation site in a B-DNA-type hexamer. Both experimentally and theoretically derived geometries for the various DNA fragments were used. The DOCK searches were carried out on a subset of the Cambridge Crystallographic Database, consisting of almost 10,000 molecules. One of the molecules that scored best in terms of the DOCK algorithm was CC-1065, a potent antitumor agent known to (covalently) bind the AT-rich parts of the minor groove of B-DNA. Several known DNA-binding agents also scored highly. Molecules with shapes complementary to A-, B- and Z-type DNA were indicated by DOCK. In addition, compounds were extracted from the database that might be selective for the GC-rich regions of the minor groove of B-DNA. Many of the compounds in the present study may serve as a starting point for further molecular design of novel DNA-binding ligands.

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Year: 1994 PMID： 7738607 DOI： 10.1007/bf00124018

Source DB: PubMed Journal: J Comput Aided Mol Des ISSN： 0920-654X Impact factor: 3.686

26 in total

Review 1. Nonintercalating DNA-binding ligands: specificity of the interaction and their use as tools in biophysical, biochemical and biological investigations of the genetic material.

Authors: C Zimmer; U Wähnert
Journal: Prog Biophys Mol Biol Date: 1986 Impact factor: 3.667

Finding potential DNA-binding compounds by using molecular shape.

Review 1. Nonintercalating DNA-binding ligands: specificity of the interaction and their use as tools in biophysical, biochemical and biological investigations of the genetic material.

2. Computerized selection of potential DNA binding compounds.

Review 3. Nuclear acceptor sites for steroid hormone receptors: comparisons of steroids and antisteroids.

4. Molecular basis for sequence-specific DNA alkylation by CC-1065.

Review 5. Structural and sequence-dependent aspects of drug intercalation into nucleic acids.

6. Solvent-accessible surfaces of proteins and nucleic acids.

7. A geometric approach to macromolecule-ligand interactions.

8. Structure refinement of the chromomycin dimer-DNA oligomer complex in solution.

9. Antitumor drug nogalamycin binds DNA in both grooves simultaneously: molecular structure of nogalamycin-DNA complex.

10. Molecular structure of an anticancer drug-DNA complex: daunomycin plus d(CpGpTpApCpG).

1. Similarity and complementarity of molecular shapes: applicability of a topological analysis approach.

2. A Discovery Funnel for Nucleic Acid Binding Drug Candidates.

3. Molecular docking of intercalators and groove-binders to nucleic acids using Autodock and Surflex.