Torque Generation in F1-ATPase Devoid of the Entire Amino-Terminal Helix of the Rotor That Fills Half of the Stator Orifice

Torque Generation in F1-ATPase Devoid of the Entire Amino-Terminal Helix of the Rotor That Fills Half of the Stator Orifice

F1-ATPase is an ATP-driven rotary molecular motor in which the central γ-subunit rotates inside a cylinder made of α3β3 subunits. The amino and carboxyl termini of the γ rotor form a coiled coil of α-helices that penetrates the stator cylinder to serve as an axle. Crystal structures indicate that th...

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Veröffentlicht in:Biophysical journal 2011-07, Vol.101 (1), p.188-195
Hauptverfasser: Kohori, Ayako, Chiwata, Ryohei, Hossain, Mohammad Delawar, Furuike, Shou, Shiroguchi, Katsuyuki, Adachi, Kengo, Yoshida, Masasuke, Kinosita, Kazuhiko
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Sprache:eng
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Adenosine Triphosphate - metabolism
Amino Acid Sequence
Animals
Cattle
crystal structure
Electrophoresis, Polyacrylamide Gel
Gold
Hydrolysis
hydrophobicity
Microspheres
Models, Molecular
Molecular Sequence Data
Mutant Proteins - chemistry
Particle Size
Protein
Protein Structure, Secondary
Protein Subunits - chemistry
Proton-Translocating ATPases - chemistry
Reproducibility of Results
Rotation
Stator
Torque
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container_end_page 195
container_issue 1
container_start_page 188
container_title Biophysical journal
container_volume 101
creator Kohori, Ayako
Chiwata, Ryohei
Hossain, Mohammad Delawar
Furuike, Shou
Shiroguchi, Katsuyuki
Adachi, Kengo
Yoshida, Masasuke
Kinosita, Kazuhiko
description F1-ATPase is an ATP-driven rotary molecular motor in which the central γ-subunit rotates inside a cylinder made of α3β3 subunits. The amino and carboxyl termini of the γ rotor form a coiled coil of α-helices that penetrates the stator cylinder to serve as an axle. Crystal structures indicate that the axle is supported by the stator at two positions, at the orifice and by the hydrophobic sleeve surrounding the axle tip. The sleeve contacts are almost exclusively to the longer carboxyl-terminal helix, whereas nearly half the orifice contacts are to the amino-terminal helix. Here, we truncated the amino-terminal helix stepwise up to 50 residues, removing one half of the axle all the way up and far beyond the orifice. The half-sliced axle still rotated with an unloaded speed a quarter of the wild-type speed, with torque nearly half the wild-type torque. The truncations were made in a construct where the rotor tip was connected to a β-subunit via a short peptide linker. Linking alone did not change the rotational characteristics significantly. These and previous results show that nearly half the normal torque is generated if rotor-stator interactions either at the orifice or at the sleeve are preserved, suggesting that the make of the motor is quite robust.
doi_str_mv 10.1016/j.bpj.2011.05.008
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The amino and carboxyl termini of the γ rotor form a coiled coil of α-helices that penetrates the stator cylinder to serve as an axle. Crystal structures indicate that the axle is supported by the stator at two positions, at the orifice and by the hydrophobic sleeve surrounding the axle tip. The sleeve contacts are almost exclusively to the longer carboxyl-terminal helix, whereas nearly half the orifice contacts are to the amino-terminal helix. Here, we truncated the amino-terminal helix stepwise up to 50 residues, removing one half of the axle all the way up and far beyond the orifice. The half-sliced axle still rotated with an unloaded speed a quarter of the wild-type speed, with torque nearly half the wild-type torque. The truncations were made in a construct where the rotor tip was connected to a β-subunit via a short peptide linker. Linking alone did not change the rotational characteristics significantly. 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source MEDLINE; Elsevier ScienceDirect Journals Complete; Cell Press Free Archives; EZB-FREE-00999 freely available EZB journals; PubMed Central
subjects Adenosine Triphosphate - metabolism
Amino Acid Sequence
Animals
Cattle
crystal structure
Electrophoresis, Polyacrylamide Gel
Gold
Hydrolysis
hydrophobicity
Microspheres
Models, Molecular
Molecular Sequence Data
Mutant Proteins - chemistry
Particle Size
Protein
Protein Structure, Secondary
Protein Subunits - chemistry
Proton-Translocating ATPases - chemistry
Reproducibility of Results
Rotation
Stator
Torque
title Torque Generation in F1-ATPase Devoid of the Entire Amino-Terminal Helix of the Rotor That Fills Half of the Stator Orifice
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