【 摘 要 】

Escherichia coli RecBCD is a bipolar DNA helicase possessing two motor subunits (RecB, a 3'-to-5' translocase, and RecD, a 5'-to-3' translocase) that is involved in the major pathway of recombinational repair. Previous studies indicated that the minimal kinetic mechanism needed to describe the ATP-dependent unwinding of blunt-ended DNA by RecBCD in vitro is a sequential n-step mechanism with two to three additional kinetic steps prior to initiating DNA unwinding. Since RecBCD can melt out similar to 6 bp upon binding to the end of a blunt-ended DNA duplex in a Mg-2+-dependent but ATP-independent reaction, we investigated the effects of noncomplementary single-strandes (ss) DNA tails [3'-(dT)(6) and 5'-(dT)(6) or 5'-(dT)(10)] on the mechanism of RecBCD and RecBC unwinding of duplex DNA using rapid kinetic methods. As with blunt-ended DNA, RecBCD unwinding of DNA possessing 3'-(dT)(6) and 5'-(dT)(6) noncomplementary ssDNA tails is well described by a sequential n-step mechanism with the same unwinding rate (mk(U) = 774 +/- 16 bps (1)) and kinetic step size (m = 3.3 +/- 1.3 bp), yet two to three additional kinetic steps are still required prior to initiation of DNA unwinding (k(C) = 45 +/- 2 s(-1)). However, when the noncomplementary 5' ssDNA tail is extended to nt [5'-(dT)(10) and 3'-(dT)(6)], the DNA end structure for which RecBCD displays optimal binding affinity, the additional kinetic steps are no longer needed, although a slightly slower unwinding rate (mk(U) = 538 +/- 24 bps (1)) is observed with a similar kinetic step size (m = 3.9 +/- 0.5 bp). The RecBC DNA helicase (without the RecD subunit) does not initiate unwinding efficiently from a blunt DNA end. However, RecBC does initiate well from a DNA end possessing noncomplementary twin 5'-(dT)(6) and 3'-(dT)(6) tails, and unwinding can be described by a simple uniform n-step sequential scheme, without the need for the additional k(C) initiation steps, with a similar kinetic step size (m = 4.4 +/- 1.7 bp) and unwinding rate (mk(obs) = 396 perpendicular to 15 bp s (1)). These results suggest that the additional kinetic steps with rate constant k(C) required for RecBCD to initiate unwinding of blunt-ended and twin (dT)(6)-tailed DNA reflect processes needed to engage the RecD motor with the 5' ssDNA. (C) 2008 Elsevier Ltd. All rights reserved.

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