Siegfried Engelbrecht

Overview

Explore the profile of Siegfried Engelbrecht including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 9

Citations 340

Followers 0

Related Specialties

Biochemistry

Science

Biophysics

Top 10 Co-Authors

Wolfgang Junge

Hendrik Sielaff

Oliver Panke

Martin Muller

Stanley D Dunn

Frank Wintermann

Karin Gumbiowski

Andre Wachter

Henning Rennekamp

Stephanie Winkler

Published In

J Biol Chem

Proc Natl Acad Sci U S A

Biophys J

Angew Chem Int Ed Engl

Eur J Biochem

Affiliations

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Recent Articles

Reconstitution of the catalytic core of F-ATPase (αβ)3γ from Escherichia coli using chemically synthesized subunit γ

Wintermann F, Engelbrecht S

Angew Chem Int Ed Engl . 2012 Dec; 52(4):1309-13. PMID: 23212931

No abstract available.

Two rotary motors in F-ATP synthase are elastically coupled by a flexible rotor and a stiff stator stalk

Wachter A, Bi Y, Dunn S, Cain B, Sielaff H, Wintermann F, et al.

Proc Natl Acad Sci U S A . 2011 Mar; 108(10):3924-9. PMID: 21368147

ATP is synthesized by ATP synthase (F(O)F(1)-ATPase). Its rotary electromotor (F(O)) translocates protons (in some organisms sodium cations) and generates torque to drive the rotary chemical generator (F(1)). Elastic power...

Torque generation and elastic power transmission in the rotary F(O)F(1)-ATPase

Junge W, Sielaff H, Engelbrecht S

Nature . 2009 May; 459(7245):364-70. PMID: 19458712

Adenosine triphosphate (ATP), the universal fuel of the cell, is synthesized from adenosine diphosphate (ADP) and inorganic phosphate (P(i)) by 'ATP synthase' (F(O)F(1)-ATPase). During respiration or photosynthesis, an electrochemical potential...

Domain compliance and elastic power transmission in rotary F(O)F(1)-ATPase

Sielaff H, Rennekamp H, Wachter A, Xie H, Hilbers F, Feldbauer K, et al.

Proc Natl Acad Sci U S A . 2008 Nov; 105(46):17760-5. PMID: 19001275

The 2 nanomotors of rotary ATP synthase, ionmotive F(O) and chemically active F(1), are mechanically coupled by a central rotor and an eccentric bearing. Both motors rotate, with 3 steps...

Functional halt positions of rotary FOF1-ATPase correlated with crystal structures

Sielaff H, Rennekamp H, Engelbrecht S, Junge W

Biophys J . 2008 Aug; 95(10):4979-87. PMID: 18723591

The F(O)F(1)-ATPase is a rotary molecular motor. Driven by ATP-hydrolysis, its central shaft rotates in 80 degrees and 40 degrees steps, interrupted by catalytic and ATP-waiting dwells. We recorded rotations...

Essential arginine in subunit a and aspartate in subunit c of FoF1 ATP synthase: effect of repositioning within helix 4 of subunit a and helix 2 of subunit c

Langemeyer L, Engelbrecht S

Biochim Biophys Acta . 2007 Jun; 1767(7):998-1005. PMID: 17583672

FoF1 ATP synthase couples proton flow through the integral membrane portion Fo (ab2c10) to ATP-synthesis in the extrinsic F1-part ((alphabeta)3gammadeltaepsilon) (Escherichia coli nomenclature and stoichiometry). Coupling occurs by mechanical rotation...

Rotary F1-ATPase. Is the C-terminus of subunit gamma fixed or mobile?

Muller M, Gumbiowski K, Cherepanov D, Winkler S, Junge W, Engelbrecht S, et al.

Eur J Biochem . 2004 Sep; 271(19):3914-22. PMID: 15373837

F-ATP synthase synthesizes ATP at the expense of ion motive force by a rotary coupling mechanism. A central shaft, subunit gamma, functionally connects the ion-driven rotary motor, F(O), with the...

Rotation of the c subunit oligomer in EF(0)EF(1) mutant cD61N

Gumbiowski K, Panke O, Junge W, Engelbrecht S

J Biol Chem . 2002 Jun; 277(35):31287-90. PMID: 12045188

ATP synthases (F(0)F(1)-ATPases) mechanically couple ion flow through the membrane-intrinsic portion, F(0), to ATP synthesis within the peripheral portion, F(1). The coupling most probably occurs through the rotation of a...

F1-ATPase, the C-terminal end of subunit gamma is not required for ATP hydrolysis-driven rotation

Muller M, Panke O, Junge W, Engelbrecht S

J Biol Chem . 2002 Apr; 277(26):23308-13. PMID: 11964400

ATP hydrolysis by the isolated F(1)-ATPase drives the rotation of the central shaft, subunit gamma, which is located within a hexagon formed by subunits (alphabeta)(3). The C-terminal end of gamma...