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R H Fillingame

Explore the profile of R H Fillingame including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 71
Citations 1494
Followers 0
Related Specialties
Biochemistry
Microbiology
Science
Top 10 Co-Authors
J Hermolin
W Jiang
P C Jones
O Y Dmitriev
M E Girvin
Y Zhang
D Fraga
M E Mosher
D L Foster
M Oldenburg
Published In
J Biol Chem
J Bacteriol
Biochemistry
Proc Natl Acad Sci U S A
Methods Enzymol
Affiliations
Soon will be listed here.
Recent Articles
1.
The oligomeric subunit C rotor in the fo sector of ATP synthase: unresolved questions in our understanding of function
Fillingame R, Jiang W, Dmitriev O
J Bioenerg Biomembr . 2004 Jul; 32(5):433-9. PMID: 15254378
We have proposed a model for the oligomeric c-rotor of the F(o) sector of ATP synthase and its interaction with subunit a during H+-transport driven rotation. The model is based...
2.
Structure of Ala(20) --> Pro/Pro(64) --> Ala substituted subunit c of Escherichia coli ATP synthase in which the essential proline is switched between transmembrane helices
Dmitriev O, Fillingame R
J Biol Chem . 2001 May; 276(29):27449-54. PMID: 11331283
The structure of the A20P/P64A mutated subunit c of Escherichia coli ATP synthase, in which the essential proline has been switched from residue 64 of the second transmembrane helix (TMH)...
3.
The preferred stoichiometry of c subunits in the rotary motor sector of Escherichia coli ATP synthase is 10
Jiang W, Hermolin J, Fillingame R
Proc Natl Acad Sci U S A . 2001 Apr; 98(9):4966-71. PMID: 11320246
The stoichiometry of c subunits in the H(+)-transporting F(o) rotary motor of ATP synthase is uncertain, the most recent suggestions varying from 10 to 14. The stoichiometry will determine the...
4.
Mutations in single hairpin units of genetically fused subunit c provide support for a rotary catalytic mechanism in F(0)F(1) ATP synthase
Jones P, Hermolin J, Fillingame R
J Biol Chem . 2001 Feb; 275(15):11355-60. PMID: 10753949
Previously, we generated genetically fused dimers and trimers of subunit c of the Escherichia coli ATP synthase based upon the precedent of naturally occurring dimers in V-type H(+)-transporting ATPases. The...
5.
Getting to the bottom of the F1-ATPase
Fillingame R
Nat Struct Biol . 2000 Nov; 7(11):1002-4. PMID: 11062550
No abstract available.
6.
Insights into the rotary catalytic mechanism of F0F1 ATP synthase from the cross-linking of subunits b and c in the Escherichia coli enzyme
Jones P, Hermolin J, Jiang W, Fillingame R
J Biol Chem . 2000 Jul; 275(40):31340-6. PMID: 10882728
The transmembrane sector of the F(0)F(1) rotary ATP synthase is proposed to organize with an oligomeric ring of c subunits, which function as a rotor, interacting with two b subunits...
7.
Structural interpretations of F(0) rotary function in the Escherichia coli F(1)F(0) ATP synthase
Fillingame R, Jiang W, Dmitriev O, Jones P
Biochim Biophys Acta . 2000 Jun; 1458(2-3):387-403. PMID: 10838053
F(1)F(0) ATP synthases are known to synthesize ATP by rotary catalysis in the F(1) sector of the enzyme. Proton translocation through the F(0) membrane sector is now proposed to drive...
8.
Molecular rotary motors
Fillingame R
Science . 1999 Dec; 286(5445):1687-8. PMID: 10610565
No abstract available.
9.
Coupling H(+) transport to rotary catalysis in F-type ATP synthases: structure and organization of the transmembrane rotary motor
Fillingame R, Jiang W, Dmitriev O
J Exp Biol . 1999 Dec; 203(Pt 1):9-17. PMID: 10600668
H(+)-transporting F(1)F(o)-type ATP synthases utilize a transmembrane H(+) potential to drive ATP formation by a rotary catalytic mechanism. ATP is formed in alternating beta subunits of the extramembranous F(1) sector...
10.
Structure of the subunit c oligomer in the F1Fo ATP synthase: model derived from solution structure of the monomer and cross-linking in the native enzyme
Dmitriev O, Jones P, Fillingame R
Proc Natl Acad Sci U S A . 1999 Jul; 96(14):7785-90. PMID: 10393899
The structure of the subunit c oligomer of the H+-transporting ATP synthase of Escherichia coli has been modeled by molecular dynamics and energy minimization calculations from the solution structure of...