TY - JOUR
T1 - pH-Controlled quaternary states of hexameric DnaB helicase
AU - Donate, Luis Enrique
AU - Llorca, Óscar
AU - Bárcena, Montserrat
AU - Brown, Susan E.
AU - Dixon, Nicholas E.
AU - Carazo, José María
PY - 2000/10/27
Y1 - 2000/10/27
N2 - DnaB is the major helicase in the Escherichia coli replisome. It is a homohexameric enzyme that interacts with many other replisomal proteins and cofactors. It is usually loaded onto a single strand of DNA at origins of replication from its complex with its loading partner DnaC, then translocates in the 5' to 3' direction, unwinding duplex DNA in an NTP-driven process. Quaternary polymorphism has been described for the DnaB oligomer, a feature it has in common with some other hexameric helicases. In the present work, electron microscopy and indepth rotational analysis studies of negatively stained specimens has allowed the establishment of conditions that govern the transition between the two different rotational symmetry states (C3 and C6) of DnaB. It is shown: (a) that the pH value of the sample buffer, within the physiological range, dictates the quaternary organisation of the DnaB oligomer; (b) that the pH-induced transition is fully reversible; (c) that the type of adenine nucleotide complexed to DnaB, whether hydrolysable or not, does not affect its quaternary architecture; (d) that the DnaB · DnaC complex exists only as particles with C3 symmetry; and (e) that DnaC interacts only with DnaB particles that have C3 symmetry. Structural consequences of this quaternary polymorphism, as well as its functional implications for helicase activity, are discussed. (C) 2000 Academic Press.
AB - DnaB is the major helicase in the Escherichia coli replisome. It is a homohexameric enzyme that interacts with many other replisomal proteins and cofactors. It is usually loaded onto a single strand of DNA at origins of replication from its complex with its loading partner DnaC, then translocates in the 5' to 3' direction, unwinding duplex DNA in an NTP-driven process. Quaternary polymorphism has been described for the DnaB oligomer, a feature it has in common with some other hexameric helicases. In the present work, electron microscopy and indepth rotational analysis studies of negatively stained specimens has allowed the establishment of conditions that govern the transition between the two different rotational symmetry states (C3 and C6) of DnaB. It is shown: (a) that the pH value of the sample buffer, within the physiological range, dictates the quaternary organisation of the DnaB oligomer; (b) that the pH-induced transition is fully reversible; (c) that the type of adenine nucleotide complexed to DnaB, whether hydrolysable or not, does not affect its quaternary architecture; (d) that the DnaB · DnaC complex exists only as particles with C3 symmetry; and (e) that DnaC interacts only with DnaB particles that have C3 symmetry. Structural consequences of this quaternary polymorphism, as well as its functional implications for helicase activity, are discussed. (C) 2000 Academic Press.
KW - DNA replication
KW - DnaB
KW - Electron microscopy
KW - Hexameric helicases and quaternary polymorphism
KW - Image analysis
UR - http://www.scopus.com/inward/record.url?scp=0034721948&partnerID=8YFLogxK
U2 - 10.1006/jmbi.2000.4132
DO - 10.1006/jmbi.2000.4132
M3 - Article
SN - 0022-2836
VL - 303
SP - 383
EP - 393
JO - Journal of Molecular Biology
JF - Journal of Molecular Biology
IS - 3
ER -