Measuring specific interaction of transcription factor ZmDREB1A with its DNA responsive element at the molecular level.

Abstract

Specific interactions between transcription factors and DNA responsive elements are of fundamental importance in understanding how genetic regulatory proteins control gene transcription. Here we have developed a new method of using atomic force microscopy (AFM) to quantitatively study the single molecular specific interaction between ZmDREB1A, a transcription factor from maize, and its DNA responsive element, dehydration-responsive element (DRE) with core sequence A/GCCGAC. It was found that ZmDREB1A bound to both DRE ACCGAC and GCCGAC efficiently. The single molecular interaction forces of ZmDREB1A with DRE A/GCCGAC were determined to be 101 +/- 5 and 108 +/- 3 pN, respectively. The point mutation of ZmDREB1A in its DNA-binding domain or single base substitution of the DRE core sequence greatly reduced the binding affinity, demonstrating the high sensitivity of the AFM measurements. AFM is expected to be a simple, quick, sensitive and reliable method that offers valuable information for the characterization of transcription factors and the identification of their potential DNA responsive elements in functional genomics research.