Partial coating of single-stranded DNA by recA protein causes its aggregation, but conditions that promote complete coating inhibit independent aggregation of single strands and, instead, cause the mutually dependent conjunction of single- and double-stranded DNA in complexes that sediment at more than 10 000 S. This coaggregation is independent of homology but otherwise shares key properties of homologous pairing of single strands with duplex DNA: both processes require ATP, MgCl2, and stoichiometric amounts of recA protein; both are very sensitive to inhibition by salt and ADP. Coaggregates are closed domains that are intermediates in homologous pairing: they form faster than joint molecules, they include virtually all of the DNA in the reaction mixture, and they yield joint molecules nearly an order of magnitude faster than they exchange DNA molecules with the surrounding solution. The independent aggregation of single-stranded DNA differs in all respects except the requirement for Mg2+, and its properties correlate instead with those associated with the renaturation of complementary single strands by recA protein.
Secondary structure in single-stranded DNA impedes the presynaptic association of recA protein and consequently blocks the formation of joint molecules as evidenced by effects of temperature, nucleotide sequence, and ionic conditions. Escherichia coli single-strand-binding protein eliminates sequence-specific "cold spots" by removing folds even from sites of strong secondary structure. Thus, destabilization of secondary structure in single-stranded DNA is critical for the action of recA protein, whereas specific interactions directly between helix-destabilizing proteins and recA protein are unimportant.
In the presence of ATP, recA protein forms a presynaptic complex with single-stranded DNA that is an obligatory intermediate in homologous pairing. Presynaptic complexes of recA protein and circular single strands that are active in forming joint molecules can be isolated by gel filtration. These isolated active complexes are nucleoprotein filaments with the following characteristics: (i) a contour length that is at least 1.5 times that of the corresponding duplex DNA molecule, (ii) an ordered structure visualized by negative staining as a striated filament with a repeat distance of 9.0 nm and a width of 9.3 nm, (iii) approximately 8 molecules of recA protein and 20 nucleotide residues per striation. The widened spacing between bases in the nucleoprotein filament means that the initial matching of complementary sequences must in-
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