Atomic Force Microscopy of Chromatin

“…Freshly cleaved mica has been traditionally used as it has an atomically flat sheet surface, creating a perfect background for AFM imaging. Untreated, the surface of mica has a negative charge [16, 21] and can effectively bind DNA molecules, provided that salt concentration is low and divalent cations are added to the buffer to bridge the electrostatic interaction with negatively charged phosphate backbone of the DNA. However, under most physiological conditions it does not bind proteins very well.…”

“…However, under most physiological conditions it does not bind proteins very well. In order to improve protein deposition, mica can be treated with APTES {(3-Aminopropyl)triethoxysilane} or APS {1-(3-aminopropyl)silatrane} silica compounds that give it a positive surface charge by functionalizing with amino groups [16, 21]. The choice between these two reagents should be determined experimentally, as well as based on feasibility at one’s facility.…”

Tracking Histone Variant Nucleosomes Across the Human Cell Cycle Using Biophysical, Biochemical, and Cytological Analyses

“…Freshly cleaved mica has been traditionally used as it has an atomically flat sheet surface, creating a perfect background for AFM imaging. Untreated, the surface of mica has a negative charge [16, 21] and can effectively bind DNA molecules, provided that salt concentration is low and divalent cations are added to the buffer to bridge the electrostatic interaction with negatively charged phosphate backbone of the DNA. However, under most physiological conditions it does not bind proteins very well.…”

“…However, under most physiological conditions it does not bind proteins very well. In order to improve protein deposition, mica can be treated with APTES {(3-Aminopropyl)triethoxysilane} or APS {1-(3-aminopropyl)silatrane} silica compounds that give it a positive surface charge by functionalizing with amino groups [16, 21]. The choice between these two reagents should be determined experimentally, as well as based on feasibility at one’s facility.…”

Tracking Histone Variant Nucleosomes Across the Human Cell Cycle Using Biophysical, Biochemical, and Cytological Analyses

Increasing Imaging Speed and Accuracy in Contact Mode AFM

Characterization of 2D polymeric biomaterial structures or surfaces