PcrA helicase dismantles RecA filaments by reeling in DNA in uniform steps

Jeehae Park; Sua Myong; Anita Niedziela-Majka; Kyung Suk Lee; Jin Yu; Timothy M. Lohman; Taekjip Ha

doi:10.1016/j.cell.2010.07.016

PcrA helicase dismantles RecA filaments by reeling in DNA in uniform steps

Jeehae Park, Sua Myong, Anita Niedziela-Majka, Kyung Suk Lee, Jin Yu, Timothy M. Lohman, Taekjip Ha

Research output: Contribution to journal › Article › peer-review

140 Scopus citations

Abstract

Translocation of helicase-like proteins on nucleic acids underlies key cellular functions. However, it is still unclear how translocation can drive removal of DNA-bound proteins, and basic properties like the elementary step size remain controversial. Using single-molecule fluorescence analysis on a prototypical superfamily 1 helicase, Bacillus stearothermophilus PcrA, we discovered that PcrA preferentially translocates on the DNA lagging strand instead of unwinding the template duplex. PcrA anchors itself to the template duplex using the 2B subdomain and reels in the lagging strand, extruding a single-stranded loop. Static disorder limited previous ensemble studies of a PcrA stepping mechanism. Here, highly repetitive looping revealed that PcrA translocates in uniform steps of 1 nt. This reeling-in activity requires the open conformation of PcrA and can rapidly dismantle a preformed RecA filament even at low PcrA concentrations, suggesting a mode of action for eliminating potentially deleterious recombination intermediates.

Original language	English
Pages (from-to)	544-555
Number of pages	12
Journal	Cell
Volume	142
Issue number	4
DOIs	https://doi.org/10.1016/j.cell.2010.07.016
State	Published - Aug 2010

Keywords

DNA

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10.1016/j.cell.2010.07.016

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@article{e1e7d331812a4402b817448d49e54fee,

title = "PcrA helicase dismantles RecA filaments by reeling in DNA in uniform steps",

abstract = "Translocation of helicase-like proteins on nucleic acids underlies key cellular functions. However, it is still unclear how translocation can drive removal of DNA-bound proteins, and basic properties like the elementary step size remain controversial. Using single-molecule fluorescence analysis on a prototypical superfamily 1 helicase, Bacillus stearothermophilus PcrA, we discovered that PcrA preferentially translocates on the DNA lagging strand instead of unwinding the template duplex. PcrA anchors itself to the template duplex using the 2B subdomain and reels in the lagging strand, extruding a single-stranded loop. Static disorder limited previous ensemble studies of a PcrA stepping mechanism. Here, highly repetitive looping revealed that PcrA translocates in uniform steps of 1 nt. This reeling-in activity requires the open conformation of PcrA and can rapidly dismantle a preformed RecA filament even at low PcrA concentrations, suggesting a mode of action for eliminating potentially deleterious recombination intermediates.",

keywords = "DNA",

author = "Jeehae Park and Sua Myong and Anita Niedziela-Majka and Lee, {Kyung Suk} and Jin Yu and Lohman, {Timothy M.} and Taekjip Ha",

note = "Funding Information: We thank C. Joo, R. Roy, M. Schlierf, S. Syed, M.C. McKinney, M.K. Nahas, B. Okumus, S.A. McKinney, E. Bozek, and J.D. Smith for experimental help; S. Arslan, J. Yodh, H. Balci, I. Cisse, B.C. Stevens, G. Lee, M. Brenner, E. Tomko, C. Fischer, and M. Spies for helpful discussion; I. Cann and his lab for providing Staphylococcus aureus PcrA for the initial studies; R. Pugh for help on ExoIII footprint assay; M. Schlierf, J. Yodh, H. Balci, and E. Tomko for careful reading of the manuscript. Funds were provided by the National Institutes of Health (GM-065367 to T.H. and GM-045948 to T.M.L.) and by the National Science Foundation (0822613 and 0646550 to T.H.). T.H. is an investigator with the Howard Hughes Medical Institute. ",

year = "2010",

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doi = "10.1016/j.cell.2010.07.016",

language = "English",

volume = "142",

pages = "544--555",

journal = "Cell",

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AU - Park, Jeehae

AU - Myong, Sua

AU - Niedziela-Majka, Anita

AU - Lee, Kyung Suk

AU - Yu, Jin

AU - Lohman, Timothy M.

AU - Ha, Taekjip

N1 - Funding Information: We thank C. Joo, R. Roy, M. Schlierf, S. Syed, M.C. McKinney, M.K. Nahas, B. Okumus, S.A. McKinney, E. Bozek, and J.D. Smith for experimental help; S. Arslan, J. Yodh, H. Balci, I. Cisse, B.C. Stevens, G. Lee, M. Brenner, E. Tomko, C. Fischer, and M. Spies for helpful discussion; I. Cann and his lab for providing Staphylococcus aureus PcrA for the initial studies; R. Pugh for help on ExoIII footprint assay; M. Schlierf, J. Yodh, H. Balci, and E. Tomko for careful reading of the manuscript. Funds were provided by the National Institutes of Health (GM-065367 to T.H. and GM-045948 to T.M.L.) and by the National Science Foundation (0822613 and 0646550 to T.H.). T.H. is an investigator with the Howard Hughes Medical Institute.

PY - 2010/8

Y1 - 2010/8

N2 - Translocation of helicase-like proteins on nucleic acids underlies key cellular functions. However, it is still unclear how translocation can drive removal of DNA-bound proteins, and basic properties like the elementary step size remain controversial. Using single-molecule fluorescence analysis on a prototypical superfamily 1 helicase, Bacillus stearothermophilus PcrA, we discovered that PcrA preferentially translocates on the DNA lagging strand instead of unwinding the template duplex. PcrA anchors itself to the template duplex using the 2B subdomain and reels in the lagging strand, extruding a single-stranded loop. Static disorder limited previous ensemble studies of a PcrA stepping mechanism. Here, highly repetitive looping revealed that PcrA translocates in uniform steps of 1 nt. This reeling-in activity requires the open conformation of PcrA and can rapidly dismantle a preformed RecA filament even at low PcrA concentrations, suggesting a mode of action for eliminating potentially deleterious recombination intermediates.

AB - Translocation of helicase-like proteins on nucleic acids underlies key cellular functions. However, it is still unclear how translocation can drive removal of DNA-bound proteins, and basic properties like the elementary step size remain controversial. Using single-molecule fluorescence analysis on a prototypical superfamily 1 helicase, Bacillus stearothermophilus PcrA, we discovered that PcrA preferentially translocates on the DNA lagging strand instead of unwinding the template duplex. PcrA anchors itself to the template duplex using the 2B subdomain and reels in the lagging strand, extruding a single-stranded loop. Static disorder limited previous ensemble studies of a PcrA stepping mechanism. Here, highly repetitive looping revealed that PcrA translocates in uniform steps of 1 nt. This reeling-in activity requires the open conformation of PcrA and can rapidly dismantle a preformed RecA filament even at low PcrA concentrations, suggesting a mode of action for eliminating potentially deleterious recombination intermediates.

KW - DNA

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U2 - 10.1016/j.cell.2010.07.016

DO - 10.1016/j.cell.2010.07.016

M3 - Article

C2 - 20723756

AN - SCOPUS:77955605175

SN - 0092-8674

VL - 142

SP - 544

EP - 555

JO - Cell

JF - Cell

IS - 4

ER -

PcrA helicase dismantles RecA filaments by reeling in DNA in uniform steps

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