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Items: 1 to 20 of 116

1.

Biophysical characterization of the C-terminal region of FliG, an essential rotor component of the Na+-driven flagellar motor.

Gohara M, Kobayashi S, Abe-Yoshizumi R, Nonoyama N, Kojima S, Asami Y, Homma M.

J Biochem. 2014 Feb;155(2):83-9. doi: 10.1093/jb/mvt100. Epub 2013 Oct 29.

PMID:
24174548
2.

Mutations targeting the C-terminal domain of FliG can disrupt motor assembly in the Na(+)-driven flagella of Vibrio alginolyticus.

Kojima S, Nonoyama N, Takekawa N, Fukuoka H, Homma M.

J Mol Biol. 2011 Nov 18;414(1):62-74. doi: 10.1016/j.jmb.2011.09.019. Epub 2011 Oct 1.

PMID:
21986199
3.

The conserved charged residues of the C-terminal region of FliG, a rotor component of the Na+-driven flagellar motor.

Yorimitsu T, Mimaki A, Yakushi T, Homma M.

J Mol Biol. 2003 Nov 28;334(3):567-83.

PMID:
14623195
4.

Domain-based biophysical characterization of the structural and thermal stability of FliG, an essential rotor component of the Na+-driven flagellar motor.

Onoue Y, Abe-Yoshizumi R, Gohara M, Nishino Y, Kobayashi S, Asami Y, Homma M.

Biophys Physicobiol. 2016 Oct 7;13:227-233. eCollection 2016.

5.

Structure of the C-terminal domain of FliG, a component of the rotor in the bacterial flagellar motor.

Lloyd SA, Whitby FG, Blair DF, Hill CP.

Nature. 1999 Jul 29;400(6743):472-5.

PMID:
10440379
6.

Contribution of many charged residues at the stator-rotor interface of the Na+-driven flagellar motor to torque generation in Vibrio alginolyticus.

Takekawa N, Kojima S, Homma M.

J Bacteriol. 2014 Apr;196(7):1377-85. doi: 10.1128/JB.01392-13. Epub 2014 Jan 24.

7.

Characterization of PomA mutants defective in the functional assembly of the Na(+)-driven flagellar motor in Vibrio alginolyticus.

Takekawa N, Li N, Kojima S, Homma M.

J Bacteriol. 2012 Apr;194(8):1934-9. doi: 10.1128/JB.06552-11. Epub 2012 Feb 17.

8.

Construction of functional fragments of the cytoplasmic loop with the C-terminal region of PomA, a stator component of the Vibrio Na+ driven flagellar motor.

Onoue Y, Abe-Yoshizumi R, Gohara M, Kobayashi S, Nishioka N, Kojima S, Homma M.

J Biochem. 2014 Mar;155(3):207-16. doi: 10.1093/jb/mvt115. Epub 2014 Jan 6.

PMID:
24398784
9.
11.

Interaction of the C-terminal tail of FliF with FliG from the Na+-driven flagellar motor of Vibrio alginolyticus.

Ogawa R, Abe-Yoshizumi R, Kishi T, Homma M, Kojima S.

J Bacteriol. 2015 Jan 1;197(1):63-72. doi: 10.1128/JB.02271-14. Epub 2014 Oct 13.

12.
13.

Structure of flagellar motor proteins in complex allows for insights into motor structure and switching.

Vartanian AS, Paz A, Fortgang EA, Abramson J, Dahlquist FW.

J Biol Chem. 2012 Oct 19;287(43):35779-83. doi: 10.1074/jbc.C112.378380. Epub 2012 Aug 15.

15.

Structure and function of the bi-directional bacterial flagellar motor.

Morimoto YV, Minamino T.

Biomolecules. 2014 Feb 18;4(1):217-34. doi: 10.3390/biom4010217. Review.

16.

Conformational change in the periplamic region of the flagellar stator coupled with the assembly around the rotor.

Zhu S, Takao M, Li N, Sakuma M, Nishino Y, Homma M, Kojima S, Imada K.

Proc Natl Acad Sci U S A. 2014 Sep 16;111(37):13523-8. doi: 10.1073/pnas.1324201111. Epub 2014 Sep 2.

18.

Structural and Functional Analysis of the C-Terminal Region of FliG, an Essential Motor Component of Vibrio Na+-Driven Flagella.

Miyanoiri Y, Hijikata A, Nishino Y, Gohara M, Onoue Y, Kojima S, Kojima C, Shirai T, Kainosho M, Homma M.

Structure. 2017 Sep 6. pii: S0969-2126(17)30263-0. doi: 10.1016/j.str.2017.08.010. [Epub ahead of print]

PMID:
28919442
19.

Effect of FliG three amino acids deletion in Vibrio polar-flagellar rotation and formation.

Onoue Y, Kojima S, Homma M.

J Biochem. 2015 Dec;158(6):523-9. doi: 10.1093/jb/mvv068. Epub 2015 Jul 3.

PMID:
26142283
20.

Structural insight into the rotational switching mechanism of the bacterial flagellar motor.

Minamino T, Imada K, Kinoshita M, Nakamura S, Morimoto YV, Namba K.

PLoS Biol. 2011 May;9(5):e1000616. doi: 10.1371/journal.pbio.1000616. Epub 2011 May 10.

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