Macromolecular Crowding Induced Elongation and Compaction of Single DNA Molecules Confined in a Nanochannel

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2009 Oct 7

PMID 19805352

Citations 39

Authors

Ce Zhang

Pei Ge Shao

Jeroen A van Kan

Johan R C van der Maarel

Affiliations

Soon will be listed here.

Abstract

The effect of dextran nanoparticles on the conformation and compaction of single DNA molecules confined in a nanochannel was investigated with fluorescence microscopy. It was observed that the DNA molecules elongate and eventually condense into a compact form with increasing volume fraction of the crowding agent. Under crowded conditions, the channel diameter is effectively reduced, which is interpreted in terms of depletion in DNA segment density in the interfacial region next to the channel wall. Confinement in a nanochannel also facilitates compaction with a neutral crowding agent at low ionic strength. The threshold volume fraction for condensation is proportional to the size of the nanoparticle, due to depletion induced attraction between DNA segments. We found that the effect of crowding is not only related to the colligative properties of the agent and that confinement is also important. It is the interplay between anisotropic confinement and osmotic pressure which gives the elongated conformation and the possibility for condensation at low ionic strength.

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