A facile method for reversibly linking a recombinant protein to DNA.
Chembiochem 10:9 (2009) 1551-1557
Abstract:
We present a facile method for linking recombinant proteins to DNA. It is based on the nickel-mediated interaction between a hexahistidine tag (His(6)-tag) and DNA functionalized with three nitrilotriacetic acid (NTA) groups. The resulting DNA-protein linkage is site-specific. It can be broken quickly and controllably by the addition of a chelating agent that binds nickel. We have used this new linker to bind proteins to a variety of DNA motifs commonly used in the fabrication of nanostructures by DNA self-assembly.Biology, one molecule at a time.
Trends Biochem Sci 34:5 (2009) 234-243
Abstract:
Single-molecule techniques have moved from being a fascinating curiosity to a highlight of life science research. The single-molecule approach to biology offers distinct advantages over the conventional approach of taking bulk measurements; this additional information content usually comes at the cost of the additional complexity. Popular single-molecule methods include optical and magnetic tweezers, atomic force microscopy, tethered particle motion and single-molecule fluorescence spectroscopy; the complement of these methods offers a wide range of spatial and temporal capabilities. These approaches have been instrumental in addressing important biological questions in diverse areas such as protein-DNA interactions, protein folding and the function(s) of membrane proteins.Single‐molecule analysis of transcription
The FASEB Journal Wiley 23:S1 (2009) 202.1-202.1
Chapter 5
Chapter in RNA Polymerases as Molecular Motors, Royal Society of Chemistry (RSC) (2009) 115-156
Single-Molecule Analysis of Transcription
Biophysical Journal Elsevier 96:3 (2009) 202a