Effects of DNA sequence and structure on binding of RecA to single-stranded DNA

AUTOR(ES)

Bar-Ziv, R.

FONTE

The National Academy of Sciences

RESUMO

Fluorescence anisotropy is used to follow the binding of RecA to short single-stranded DNA (ssDNA) sequences (39 bases) at low DNA and RecA concentration where the initial phase of polymerization occurs. We observe that RecA condensation is extremely sensitive to minute changes in DNA sequences. RecA binds strongly to sequences that are rich in pyrimidines and that lack significant secondary structure and base stacking. We find a correlation between the DNA folding free energy and the onset concentration for RecA binding. These results suggest that the folding of ssDNA and base stacking represent a barrier for RecA binding. The link between secondary structure and binding affinity is further analyzed with two examples: discrimination between two naturally occurring polymorphisms differing by one base and RecA binding on a molecular beacon. A self-assembly model is introduced to explain these observations. We propose that RecA may be used to sense ssDNA sequence and structure.

Documentos Relacionados

• Active nucleoprotein filaments of single-stranded binding protein and recA protein on single-stranded DNA have a regular repeating structure.
• Recognition of duplex DNA containing single-stranded regions by recA protein.
• recA protein-catalyzed strand assimilation: stimulation by Escherichia coli single-stranded DNA-binding protein.
• Binding of RecA protein to single-stranded nucleic acids: spectroscopic studies using fluorescent polynucleotides.
• Isolation and visualization of active presynaptic filaments of recA protein and single-stranded DNA.