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Robert Nakamoto

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.5 Million pre-calculated profiles free of charge to researchers worldwide.

Research Profile (preview)

Chemicals & Drugs

Living Beings

Escherichia coli

Phenomena

Concepts & Ideas

Occupations

Thermodynamics

Physiology

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Co-Publications
Name
13
Al-Shawi, Marwan
10
Somlyo, Andrew
9
Somlyo, Avril
8
Ketchum, CJ
5
Read, Paul
3
Walker, LA
3
Gorenne, Isabelle
3
Haystead, Timothy
3
Derewenda, Zygmunt
3
Omote, Hiroshi
3
Peskova, YB
3
Kuo, PH
3
Longenecker, Kenton
2
MacDonald, Justin
2
Derewenda, Urszula

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Publications

TOP 3
Scanlon Joanne A Baylis; Al-Shawi Marwan K; Nakamoto Robert K
A rotor-stator cross-link in the F1-ATPase blocks the rate-limiting step of rotational catalysis.
Nakamoto Robert K; Baylis Scanlon Joanne A; Al-Shawi Marwan K
The rotary mechanism of the ATP synthase.
Scanlon Joanne A Baylis; Al-Shawi Marwan K; Le Nga Phi; Nakamoto Robert K
Determination of the partial reactions of rotational catalysis in F1-ATPase.

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All Publications

2008: Scanlon Joanne A Baylis; Al-Shawi Marwan K; Nakamoto Robert K
A rotor-stator cross-link in the F1-ATPase blocks the rate-limiting step of rotational catalysis.
The Journal of biological chemistry 2008;283(38):26228-40.
2008: Nakamoto Robert K; Baylis Scanlon Joanne A; Al-Shawi Marwan K
The rotary mechanism of the ATP synthase.
Archives of biochemistry and biophysics 2008;476(1):43-50.
2007: Scanlon Joanne A Baylis; Al-Shawi Marwan K; Le Nga Phi; Nakamoto Robert K
Determination of the partial reactions of rotational catalysis in F1-ATPase.
Biochemistry 2007;46(30):8785-97.
2006: Ohashi-Kobayashi Ayako; Ohashi Kazuaki; Du Wei-Bin; Omote Hiroshi; Nakamoto Robert; Al-Shawi Marwan; Maeda Masatomo
Examination of drug resistance activity of human TAP-like (ABCB9) expressed in yeast.
Biochemical and biophysical research communications 2006;343(2):597-601.
2006: Khromov A S; Wang H; Choudhury N; McDuffie M; Herring B P; Nakamoto R; Owens G K; Somlyo A P; Somlyo A V
Smooth muscle of telokin-deficient mice exhibits increased sensitivity to Ca2+ and decreased cGMP-induced relaxation.
Proceedings of the National Academy of Sciences of the United States of America 2006;103(7):2440-5.
2004: Caldwell Stephen H; Chang Charissa Y; Nakamoto Robert K; Krugner-Higby Lisa
Mitochondria in nonalcoholic fatty liver disease.
Clinics in liver disease 2004;8(3):595-617, x.
2003: Gorenne Isabelle; Nakamoto Robert K; Phelps Clayton P; Beckerle Mary C; Somlyo Avril V; Somlyo Andrew P
LPP, a LIM protein highly expressed in smooth muscle.
American journal of physiology. Cell physiology 2003;285(3):C674-85.
2003: Longenecker Kenton; Read Paul; Lin Shin-Kai; Somlyo Andrew P; Nakamoto Robert K; Derewenda Zygmunt S
Structure of a constitutively activated RhoA mutant (Q63L) at 1.55 A resolution.
Acta crystallographica. Section D, Biological crystallography 2003;59(Pt 5):876-80.
2001: Andrews S H; Peskova Y B; Polar M K; Herlihy V B; Nakamoto R K
Conformation of the gamma subunit at the gamma-epsilon-c interface in the complete Escherichia coli F(1)-ATPase complex by site-directed spin labeling.
Biochemistry 2001;40(35):10664-70.
2001: Gong M C; Gorenne I; Read P; Jia T; Nakamoto R K; Somlyo A V; Somlyo A P
Regulation by GDI of RhoA/Rho-kinase-induced Ca2+ sensitization of smooth muscle myosin II.
American journal of physiology. Cell physiology 2001;281(1):C257-69.
2001: Walker L A; MacDonald J A; Liu X; Nakamoto R K; Haystead T A; Somlyo A V; Somlyo A P
Site-specific phosphorylation and point mutations of telokin modulate its Ca2+-desensitizing effect in smooth muscle.
The Journal of biological chemistry 2001;276(27):24519-24.
2000: Peskova Y B; Nakamoto R K
Catalytic control and coupling efficiency of the Escherichia coli FoF1 ATP synthase: influence of the Fo sector and epsilon subunit on the catalytic transition state.
Biochemistry 2000;39(38):11830-6.
2000: MacDonald J A; Walker L A; Nakamoto R K; Gorenne I; Somlyo A V; Somlyo A P; Haystead T A
Phosphorylation of telokin by cyclic nucleotide kinases and the identification of in vivo phosphorylation sites in smooth muscle.
FEBS letters 2000;479(3):83-8.
2000: Nakamoto R K; Ketchum C J; Kuo P H; Peskova Y B; Al-Shawi M K
Molecular mechanisms of rotational catalysis in the F(0)F(1) ATP synthase.
Biochimica et biophysica acta 2000;1458(2-3):289-99.
2000: Kuo P H; Nakamoto R K
Intragenic and intergenic suppression of the Escherichia coli ATP synthase subunit a mutation of Gly-213 to Asn: functional interactions between residues in the proton transport site.
The Biochemical journal 2000;347 Pt 3():797-805.
2000: Figler R A; Omote H; Nakamoto R K; Al-Shawi M K
Use of chemical chaperones in the yeast Saccharomyces cerevisiae to enhance heterologous membrane protein expression: high-yield expression and purification of human P-glycoprotein.
Archives of biochemistry and biophysics 2000;376(1):34-46.
2000: Le N P; Omote H; Wada Y; Al-Shawi M K; Nakamoto R K; Futai M
Escherichia coli ATP synthase alpha subunit Arg-376: the catalytic site arginine does not participate in the hydrolysis/synthesis reaction but is required for promotion to the steady state.
Biochemistry 2000;39(10):2778-83.
2000: Read P W; Liu X; Longenecker K; Dipierro C G; Walker L A; Somlyo A V; Somlyo A P; Nakamoto R K
Human RhoA/RhoGDI complex expressed in yeast: GTP exchange is sufficient for translocation of RhoA to liposomes.
Protein science : a publication of the Protein Society 2000;9(2):376-86.
2000: Read P W; Nakamoto R K
Expression and purification of Rho/RhoGDI complexes.
Methods in enzymology 2000;325():15-25.
1999: Longenecker K; Read P; Derewenda U; Dauter Z; Liu X; Garrard S; Walker L; Somlyo A V; Nakamoto R K; Somlyo A P; Derewenda Z S
How RhoGDI binds Rho.
Acta crystallographica. Section D, Biological crystallography 1999;55(Pt 9):1503-15.
1999: Nakamoto R K; Ketchum C J; al-Shawi M K
Rotational coupling in the F0F1 ATP synthase.
Annual review of biophysics and biomolecular structure 1999;28():205-34.
1998: Ketchum C J; Nakamoto R K
A mutation in the Escherichia coli F0F1-ATP synthase rotor, gammaE208K, perturbs conformational coupling between transport and catalysis.
The Journal of biological chemistry 1998;273(35):22292-7.
1998: Caviston T L; Ketchum C J; Sorgen P L; Nakamoto R K; Cain B D
Identification of an uncoupling mutation affecting the b subunit of F1F0 ATP synthase in Escherichia coli.
FEBS letters 1998;429(2):201-6.
1998: Wu X; Haystead T A; Nakamoto R K; Somlyo A V; Somlyo A P
Acceleration of myosin light chain dephosphorylation and relaxation of smooth muscle by telokin. Synergism with cyclic nucleotide-activated kinase.
The Journal of biological chemistry 1998;273(18):11362-9.
1998: Kuo P H; Ketchum C J; Nakamoto R K
Stability and functionality of cysteine-less F(0)F1 ATP synthase from Escherichia coli.
FEBS letters 1998;426(2):217-20.
1998: Ketchum C J; Al-Shawi M K; Nakamoto R K
Intergenic suppression of the gammaM23K uncoupling mutation in F0F1 ATP synthase by betaGlu-381 substitutions: the role of the beta380DELSEED386 segment in energy coupling.
The Biochemical journal 1998;330 ( Pt 2)():707-12.
1997: Al-Shawi M K; Ketchum C J; Nakamoto R K
The Escherichia coli FOF1 gammaM23K uncoupling mutant has a higher K0.5 for Pi. Transition state analysis of this mutant and others reveals that synthesis and hydrolysis utilize the same kinetic pathway.
Biochemistry 1997;36(42):12961-9.
1997: Al-Shawi M K; Nakamoto R K
Mechanism of energy coupling in the FOF1-ATP synthase: the uncoupling mutation, gammaM23K, disrupts the use of binding energy to drive catalysis.
Biochemistry 1997;36(42):12954-60.
1997: Wei Y; Zhang Y; Derewenda U; Liu X; Minor W; Nakamoto R K; Somlyo A V; Somlyo A P; Derewenda Z S
Crystal structure of RhoA-GDP and its functional implications.
Nature structural biology 1997;4(9):699-703.
1997: Al-Shawi M K; Ketchum C J; Nakamoto R K
Energy coupling, turnover, and stability of the F0F1 ATP synthase are dependent on the energy of interaction between gamma and beta subunits.
The Journal of biological chemistry 1997;272(4):2300-6.
1996: Nakamoto R K
Mechanisms of active transport in the FOF1 ATP synthase.
The Journal of membrane biology 1996;151(2):101-11.
1995: Nakamoto R K; al-Shawi M K; Futai M
The ATP synthase gamma subunit. Suppressor mutagenesis reveals three helical regions involved in energy coupling.
The Journal of biological chemistry 1995;270(23):14042-6.

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