Frontiers in ATP synthase research: Understanding the relationship between subunit movements and ATP Synthesis Peter L. Pedersen OriginalPaper Pages: 389 - 395
Structural changes in the γ and ε subunits of theEscherichia coli F1F0-type ATPase during energy coupling Roderick A. CapaldiRobert AggelerGerhard Grüber OriginalPaper Pages: 397 - 401
Subunit rotation in F0F1-ATP synthases as a means of coupling proton transport through F0 to the binding changes in F1 Richard L. CrossThomas M. Duncan OriginalPaper Pages: 403 - 408
Conformational transmission in ATP synthase during catalysis: Search for large structural changes Masamitsu FutaiHiroshi Omote OriginalPaper Pages: 409 - 414
The coupling of the relative movement of thea andc subunits of the F0 to the conformational changes in the F1-ATPase Susan M. HowittAndrew J. W. RodgersGraeme B. Cox OriginalPaper Pages: 415 - 420
The energy transmission in ATP synthase: From the γ-c rotor to the α3β3 oligomer fixed by OSCP-b stator via the βDELSEED sequence Yasuo KagawaToshiro Hamamoto OriginalPaper Pages: 421 - 431
Does the γ subunit move to an abortive position for ATP hydrolysis when the F1·ADP·Mg complex isomerizes to the inactive F1*·ADP·Mg complex? William S. AllisonJean -Michael JaultNeil B. Grodsky OriginalPaper Pages: 433 - 438
Subunit movement during catalysis by F1-F0-ATP synthases Jeanne G. DigelKendra E. HightowerRichard E. McCarty OriginalPaper Pages: 439 - 442
The chloroplast ATP synthase: Structural changes during catalysis Mark L. RichterFei Gao OriginalPaper Pages: 443 - 449
Molecular switch of F0F1-ATP synthase, G-protein, and other ATP-driven enzymes Hiroyuki NojiToyoki AmanoMasasuke Yoshida OriginalPaper Pages: 451 - 457