Literature DB >> 26143375

Review and Hypothesis. New insights into the reaction mechanism of transhydrogenase: Swivelling the dIII component may gate the proton channel.

J Baz Jackson1, Josephine H Leung2, Charles D Stout2, Lici A Schurig-Briccio3, Robert B Gennis3.   

Abstract

The membrane protein transhydrogenase in animal mitochondria and bacteria couples reduction of NADP⁺ by NADH to proton translocation. Recent X-ray data on Thermus thermophilus transhydrogenase indicate a significant difference in the orientations of the two dIII components of the enzyme dimer (Leung et al., 2015). The character of the orientation change, and a review of information on the kinetics and thermodynamics of transhydrogenase, indicate that dIII swivelling might assist in the control of proton gating by the redox state of bound NADP⁺/NADPH during enzyme turnover.
Copyright © 2015 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Membrane-protein structure; Nicotinamide nucleotide; Proton-gating; Proton-pump; Transhydrogenase

Mesh:

Substances:

Year:  2015        PMID: 26143375     DOI: 10.1016/j.febslet.2015.06.027

Source DB:  PubMed          Journal:  FEBS Lett        ISSN: 0014-5793            Impact factor:   4.124


  9 in total

1.  Critical Role of Water Molecules in Proton Translocation by the Membrane-Bound Transhydrogenase.

Authors:  Pius S Padayatti; Josephine H Leung; Paween Mahinthichaichan; Emad Tajkhorshid; Andrii Ishchenko; Vadim Cherezov; S Michael Soltis; J Baz Jackson; C David Stout; Robert B Gennis; Qinghai Zhang
Journal:  Structure       Date:  2017-06-22       Impact factor: 5.006

2.  The genome of a nonphotosynthetic diatom provides insights into the metabolic shift to heterotrophy and constraints on the loss of photosynthesis.

Authors:  Anastasiia Onyshchenko; Wade R Roberts; Elizabeth C Ruck; Jeffrey A Lewis; Andrew J Alverson
Journal:  New Phytol       Date:  2021-09-03       Impact factor: 10.323

Review 3.  Proton-Translocating Nicotinamide Nucleotide Transhydrogenase: A Structural Perspective.

Authors:  Qinghai Zhang; Pius S Padayatti; Josephine H Leung
Journal:  Front Physiol       Date:  2017-12-19       Impact factor: 4.566

4.  Nicotinamide nucleotide transhydrogenase (NNT) deficiency dysregulates mitochondrial retrograde signaling and impedes proliferation.

Authors:  Hung-Yao Ho; Yu-Ting Lin; Gigin Lin; Pei-Ru Wu; Mei-Ling Cheng
Journal:  Redox Biol       Date:  2017-04-29       Impact factor: 11.799

5.  Nicotinamide nucleotide transhydrogenase-mediated redox homeostasis promotes tumor growth and metastasis in gastric cancer.

Authors:  Shuai Li; Zhuonan Zhuang; Teng Wu; Jie-Chun Lin; Ze-Xian Liu; Li-Fen Zhou; Ting Dai; Lei Lu; Huai-Qiang Ju
Journal:  Redox Biol       Date:  2018-07-21       Impact factor: 11.799

6.  Energy transfer between the nicotinamide nucleotide transhydrogenase and ATP synthase of Escherichia coli.

Authors:  Simone Sandra Graf; Sangjin Hong; Philipp Müller; Robert Gennis; Christoph von Ballmoos
Journal:  Sci Rep       Date:  2021-10-27       Impact factor: 4.379

Review 7.  ATP-consuming futile cycles as energy dissipating mechanisms to counteract obesity.

Authors:  Alexandra J Brownstein; Michaela Veliova; Rebeca Acin-Perez; Marc Liesa; Orian S Shirihai
Journal:  Rev Endocr Metab Disord       Date:  2021-11-06       Impact factor: 6.514

8.  Flux through mitochondrial redox circuits linked to nicotinamide nucleotide transhydrogenase generates counterbalance changes in energy expenditure.

Authors:  Cody D Smith; Cameron A Schmidt; Chien-Te Lin; Kelsey H Fisher-Wellman; P Darrell Neufer
Journal:  J Biol Chem       Date:  2020-08-03       Impact factor: 5.157

9.  Inhibiting both proline biosynthesis and lipogenesis synergistically suppresses tumor growth.

Authors:  Miao Liu; Yuanyuan Wang; Chuanzhen Yang; Yuxia Ruan; Changsen Bai; Qiaoyun Chu; Yanfen Cui; Ceshi Chen; Guoguang Ying; Binghui Li
Journal:  J Exp Med       Date:  2020-03-02       Impact factor: 14.307
  9 in total

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