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  • Title: The efficiency of strand invasion by Escherichia coli RecA is dependent upon the length and polarity of ssDNA tails.
    Author: McIlwraith MJ, West SC.
    Journal: J Mol Biol; 2001 Jan 05; 305(1):23-31. PubMed ID: 11114244.
    Abstract:
    RecA protein is essential for homologous recombination and the repair of DNA double-strand breaks in Escherichia coli. The protein binds DNA to form nucleoprotein filaments that promote joint molecule formation and strand exchange in vitro. RecA polymerises on ssDNA in the 5'-3' direction and catalyses strand exchange and branch migration with a 5'-3' polarity. It has been reported previously, using D-loop assays, in which ssDNA (containing a heterologous block at one end) invades supercoiled duplex DNA that 3'-homologous ends are reactive, whereas 5'-ends are inactive. This polarity bias was thought to be due to the polarity of RecA filament formation, which results in the 3'-ends being coated in RecA, whereas 5'-ends remain naked. Using a range of duplex substrates containing ssDNA tails of various lengths and polarities, we now demonstrate that when no heterologous block is imposed, 5'-ends are just as reactive as 3'-ends. Moreover, using short-tailed substrates, we find that 5'-ends form more stable D-loops than 3'-ends. This bias may be a consequence of the instability of short 3'-joints. With more physiological substrates containing long ssDNA tails, we find that RecA shows no intrinsic preference for 5' or 3'-ends and that both form D-loop complexes with high efficiency.
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