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Items: 1 to 20 of 107

1.

Key amino acid residues involved in the transitions of L- to R-type protofilaments of the Salmonella flagellar filament.

Hayashi F, Tomaru H, Furukawa E, Ikeda K, Fukano H, Oosawa K.

J Bacteriol. 2013 Aug;195(16):3503-13. doi: 10.1128/JB.02091-12. Epub 2013 May 31.

2.

Structure of the bacterial flagellar protofilament and implications for a switch for supercoiling.

Samatey FA, Imada K, Nagashima S, Vonderviszt F, Kumasaka T, Yamamoto M, Namba K.

Nature. 2001 Mar 15;410(6826):331-7.

PMID:
11268201
3.

The flagellar filament of Rhodobacter sphaeroides: pH-induced polymorphic transitions and analysis of the fliC gene.

Shah DS, Perehinec T, Stevens SM, Aizawa SI, Sockett RE.

J Bacteriol. 2000 Sep;182(18):5218-24.

4.

A "mechanistic" explanation of the multiple helical forms adopted by bacterial flagellar filaments.

Calladine CR, Luisi BF, Pratap JV.

J Mol Biol. 2013 Mar 11;425(5):914-28. doi: 10.1016/j.jmb.2012.12.007. Epub 2012 Dec 26.

5.

Correlation between supercoiling and conformational motions of the bacterial flagellar filament.

Stadler AM, Unruh T, Namba K, Samatey F, Zaccai G.

Biophys J. 2013 Nov 5;105(9):2157-65. doi: 10.1016/j.bpj.2013.09.039.

6.

Conformational change of flagellin for polymorphic supercoiling of the flagellar filament.

Maki-Yonekura S, Yonekura K, Namba K.

Nat Struct Mol Biol. 2010 Apr;17(4):417-22. doi: 10.1038/nsmb.1774. Epub 2010 Mar 14.

PMID:
20228803
7.

Complete atomic model of the bacterial flagellar filament by electron cryomicroscopy.

Yonekura K, Maki-Yonekura S, Namba K.

Nature. 2003 Aug 7;424(6949):643-50.

PMID:
12904785
8.

Effect of cellular level of FliK on flagellar hook and filament assembly in Salmonella typhimurium.

Muramoto K, Makishima S, Aizawa SI, Macnab RM.

J Mol Biol. 1998 Apr 10;277(4):871-82.

PMID:
9545378
10.
12.

Formation of helical filaments by copolymerization of two types of 'straight' flagellins.

Kamiya R, Asakura S, Yamaguchi S.

Nature. 1980 Aug 7;286(5773):628-30.

PMID:
7402342
14.

Amino acids responsible for flagellar shape are distributed in terminal regions of flagellin.

Kanto S, Okino H, Aizawa S, Yamaguchi S.

J Mol Biol. 1991 Jun 5;219(3):471-80.

PMID:
2051483
15.

Direct interaction of flagellin termini essential for polymorphic ability of flagellar filament.

Mimori-Kiyosue Y, Vonderviszt F, Yamashita I, Fujiyoshi Y, Namba K.

Proc Natl Acad Sci U S A. 1996 Dec 24;93(26):15108-13.

16.

Switch interactions control energy frustration and multiple flagellar filament structures.

Kitao A, Yonekura K, Maki-Yonekura S, Samatey FA, Imada K, Namba K, Go N.

Proc Natl Acad Sci U S A. 2006 Mar 28;103(13):4894-9. Epub 2006 Mar 20.

17.

The flk gene of Salmonella typhimurium couples flagellar P- and L-ring assembly to flagellar morphogenesis.

Karlinsey JE, Pease AJ, Winkler ME, Bailey JL, Hughes KT.

J Bacteriol. 1997 Apr;179(7):2389-400.

18.

The structure of the R-type straight flagellar filament of Salmonella at 9 A resolution by electron cryomicroscopy.

Mimori Y, Yamashita I, Murata K, Fujiyoshi Y, Yonekura K, Toyoshima C, Namba K.

J Mol Biol. 1995 May 26;249(1):69-87.

PMID:
7776377
19.

Self-assembly of the filament capping protein, FliD, of bacterial flagella into an annular structure.

Ikeda T, Oosawa K, Hotani H.

J Mol Biol. 1996 Jun 21;259(4):679-86.

PMID:
8683574
20.
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