Hexameric RSF1010 helicase RepA: the structural and functional importance of single amino acid residues

doi:10.1093/nar/gkg790

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Nucleic Acids Research, 2003, Vol. 31, No. 20 5917-5929
© 2003 Oxford University Press

Hexameric RSF1010 helicase RepA: the structural and functional importance of single amino acid residues

Günter Ziegelin¹^,2, Timo Niedenzu², Rudi Lurz¹, Wolfram Saenger² and Erich Lanka^*^,1

¹ Max-Planck-Institut für Molekulare Genetik, Ihnestrasse 73, Dahlem, D-14195 Berlin, Germany and ² Institut für Kristallographie, Freie Universität Berlin, D-14195 Berlin, Germany

*To whom correspondence should be addressed. Tel: +49 30 8413 1696; Fax: +49 30 8413 1130; Email: lanka{at}molgen.mpg.de

In the known monoclinic crystals the 3-dimensional structureof the hexameric, replicative helicase RepA encoded by plasmidRSF1010 shows 6-fold rotational symmetry. In contrast, in thecubic crystal form at 2.55 Å resolution described hereRepA has 3-fold symmetry and consists of a trimer of dimers.To study structure–function relationships, a series ofrepA deletion mutants and mutations yielding single amino acidexchanges were constructed and the respective gene productswere analyzed in vivo and in vitro. Hexamerization of RepA occursvia the N-terminus and is required for NTP hydrolysis. The C-terminusis essential both for the interaction with the replication machineryand for the helicase activity. Functional analyses of RepA variantswith single amino acid exchanges confirmed most of the predictionsthat were based on the published 3-dimensional structure. Ofthe five motifs conserved in family 4 helicases, all residuesconserved in RepA and T7 gp4 helicases participate in DNA unwinding.Residues K42, E76, D77, D139 and H178, proposed to play keyroles in catalyzing the hydrolysis of NTPs, are essential forRepA activity. Residue H178 of motif H3 couples nucleotide consumptionto DNA strand separation.

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