TY - JOUR
T1 - Two different oligomeric states of the RuvB branch migration motor protein as revealed by electron microscopy
AU - Miyata, Tomoko
AU - Yamada, Kazuhiro
AU - Iwasaki, Hiroshi
AU - Shinagawa, Hideo
AU - Morikawa, Kosuke
AU - Mayanagi, Kouta
N1 - Funding Information:
We are grateful to Mr. T. Yasunaga and Professor T. Wakaba-yashi for providing EOS. We are also grateful to Dr. Y. Kimura for useful discussions about image analysis. This work was supported by Research Fellowships of the Japan Society for the Promotion of Science for Young Scientists (to K.Y).
PY - 2000
Y1 - 2000
N2 - In prokaryotes, the RuvA, B, and C proteins play major roles at the late stage of DNA homologous recombination, where RuvB complexed with RuvA acts as an ATP-dependent motor for branch migration. The oligomeric structures of negatively stained and frozen hydrated RuvB from Thermus thermophilus HB8 were investigated by electron microscopy. RuvB oligomers free of DNA formed a ring structure of about 14 nm in diameter. The averaged top view image clearly indicated a sevenfold symmetry, suggesting that it exists as a heptamer. The RuvB oligomers complexed with duplex DNA formed a smaller ring of about 13 nm in diameter. The averaged top view images represented a sixfold symmetry. This difference in oligomerization indicates that the oligomeric structure of RuvB may convert from a heptamer to a hexamer upon DNA binding. In addition, this finding provides the lesson that great care should be taken in investigating the subunit organizations of DNA binding proteins, because their oligomeric states are more sensitive to DNA interactions than expected. (C) 2000 Academic Press.
AB - In prokaryotes, the RuvA, B, and C proteins play major roles at the late stage of DNA homologous recombination, where RuvB complexed with RuvA acts as an ATP-dependent motor for branch migration. The oligomeric structures of negatively stained and frozen hydrated RuvB from Thermus thermophilus HB8 were investigated by electron microscopy. RuvB oligomers free of DNA formed a ring structure of about 14 nm in diameter. The averaged top view image clearly indicated a sevenfold symmetry, suggesting that it exists as a heptamer. The RuvB oligomers complexed with duplex DNA formed a smaller ring of about 13 nm in diameter. The averaged top view images represented a sixfold symmetry. This difference in oligomerization indicates that the oligomeric structure of RuvB may convert from a heptamer to a hexamer upon DNA binding. In addition, this finding provides the lesson that great care should be taken in investigating the subunit organizations of DNA binding proteins, because their oligomeric states are more sensitive to DNA interactions than expected. (C) 2000 Academic Press.
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U2 - 10.1006/jsbi.2000.4290
DO - 10.1006/jsbi.2000.4290
M3 - Article
C2 - 11042078
AN - SCOPUS:0033792010
SN - 1047-8477
VL - 131
SP - 83
EP - 89
JO - Journal of structural biology
JF - Journal of structural biology
IS - 2
ER -