N. Kajiwara scite author profile

The subunit of bacterial and chloroplast FoF1-ATP synthases modulates their ATP hydrolysis activity. Here, we report the crystal structure of the ATP-bound subunit from a thermophilic Bacillus PS3 at 1.9-Å resolution. The C-terminal two ␣-helices were folded into a hairpin, sitting on the ␤ sandwich structure, as reported for Escherichia coli. A previously undescribed ATP binding motif, I(L)DXXRA, recognizes ATP together with three arginine and one glutamate residues. The E. coli subunit binds ATP in a similar manner, as judged on NMR. We also determined solution structures of the C-terminal domain of the PS3 subunit and relaxation parameters of the whole molecule by NMR. The two helices fold into a hairpin in the presence of ATP but extend in the absence of ATP. The latter structure has more helical regions and is much more flexible than the former. These results suggest that the Cterminal domain can undergo an arm-like motion in response to an ATP concentration change and thereby contribute to regulation of F oF1-ATP synthase.ATP hydrolysis ͉ ATP-binding motif ͉ ATPase regulation ͉ ATP synthase ͉ F1 rotation

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Stepwise Propagation of the ATP-induced Conformational Change of the F1-ATPase β Subunit Revealed by NMR

Yagi

Kajiwara

Iwabuchi

et al. 2009

Journal of Biological Chemistry

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2D1645 The effect of the hydrophilic segment of light-harvesting polypeptides on formation of photosynthetic antenna complex in lipid

Kajiwara¹,

Inagaki²,

Yoshimura³

et al. 2002

Biophysics

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3P021 Induction factor of structure chnage of TF_1 epsilon subunit

Yagi¹,

Kajiwara²,

Tanaka³

et al. 2005

Biophysics

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The role of Thr-165 and Asp-252 for hydrogen bonds change of F_1-ATPase b subunit on nucleotide binding

Kajiwara¹,

Yagi²,

Yamazaki³

et al. 2003

Biophysics

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N. Kajiwara

Structures of the thermophilic F ₁ -ATPase ε subunit suggesting ATP-regulated arm motion of its C-terminal domain in F ₁

Stepwise Propagation of the ATP-induced Conformational Change of the F1-ATPase β Subunit Revealed by NMR

2D1645 The effect of the hydrophilic segment of light-harvesting polypeptides on formation of photosynthetic antenna complex in lipid

3P021 Induction factor of structure chnage of TF_1 epsilon subunit

The role of Thr-165 and Asp-252 for hydrogen bonds change of F_1-ATPase b subunit on nucleotide binding

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N. Kajiwara

Structures of the thermophilic F 1 -ATPase ε subunit suggesting ATP-regulated arm motion of its C-terminal domain in F 1

Stepwise Propagation of the ATP-induced Conformational Change of the F1-ATPase β Subunit Revealed by NMR

2D1645 The effect of the hydrophilic segment of light-harvesting polypeptides on formation of photosynthetic antenna complex in lipid

3P021 Induction factor of structure chnage of TF_1 epsilon subunit

The role of Thr-165 and Asp-252 for hydrogen bonds change of F_1-ATPase b subunit on nucleotide binding

Contact Info

Product

Resources

About

Structures of the thermophilic F ₁ -ATPase ε subunit suggesting ATP-regulated arm motion of its C-terminal domain in F ₁