| Abstract: | The bacteriophage T4 uvsX gene codes for a DNA-binding protein that is important for genetic recombination in T4-infected cells. This protein is a DNA-dependent ATPase that resembles the Escherichia coli recA protein in many of its properties. We have examined the binding of purified uvsX protein to single-stranded DNA (ssDNA) and to double-stranded DNA (dsDNA) using electron microscopy to visualize the complexes that are formed and double label analysis to measure their protein content. We find that the uvsX protein binds cooperatively to dsDNA, forming filaments 14 nm in diameter with an apparently helical axial repeat of 12 nm. Each repeat contains about 42 base pairs and 9-12 uvsX protein monomers. In solutions containing Mg2+, the uvsX protein also binds cooperatively to ssDNA. The filaments that result are 14 nm in diameter, show a 12-nm axial repeat, and they are nearly identical in appearance to the filaments that contain dsDNA. In the filaments formed along ssDNA, each axial repeat contains about 49 DNA bases and 9-12 uvsX monomers. Both the filaments formed on the ssDNA and dsDNA show a strong tendency to align side-by-side. T4 gene 32 protein also binds cooperatively to ssDNA and interacts both physically and functionally with uvsX protein. However, when gene 32 and uvsX proteins were added to ssDNA together, no interaction between the two proteins was detected. |
