A novel assay for drug-DNA binding mode, affinity, and exclusion number: Scanning force microscopy
Coury JE, McFailIsom L, Williams LD, Bottomley LA
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

93: (22) 12283-12286 OCT 29 1996


Abstract:
Determining the mode-of-binding of a DNA ligand is not always straightforward. Here, we establish a scanning force microscopic assay for mode-of binding that is (i) direct: lengths of individual DNA-ligand complexes are directly measured; (ii) rapid: there are no requirements for staining or elaborate sample preparation; and (iii) unambiguous: an observed increase in DNA length upon addition of a ligand is definitive evidence for an intercalative mode-of-binding, Mode-of-binding, binding affinity, and site-exclusion number are readily determined from scanning force microscopy measurements of the changes in length of individual drug-DNA complexes as a function of drug concentration. With this assay, we resolve the ambiguity surrounding the mode of binding of 2,5-bis(4-amidinophenyl)furan (APF) to DNA and show that it binds to DNA by nonintercalative modes. APF is a member of an important class of aromatic dicationic drugs that show significant activity in the treatment of Pneumocystis carinii pneumonia, an opportunistic infection that is the leading cause of death in AIDS patients.

Author Keywords:
intercalation, minor groove binding

KeyWords Plus:
ACQUIRED IMMUNODEFICIENCY SYNDROME, DEOXYRIBONUCLEIC-ACID, COMPLEXES, VISUALIZATION, ETHIDIUM, PROTEIN, AIR

Addresses:
Coury JE, GEORGIA INST TECHNOL, SCH CHEM & BIOCHEM, ATLANTA, GA 30332.

Publisher:
NATL ACAD SCIENCES, WASHINGTON

IDS Number:
VP937

ISSN:
0027-8424