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Literature DB >> 33127867

Shining light on rhodopsin selectivity: How do proteins decide whether to transport H⁺ or Cl^-?

Abstract

The versatile microbial rhodopsin family performs a variety of biological tasks using a highly conserved architecture, making it difficult to understand the mechanistic basis for different functions. Besaw et al. now report structures of a recently discovered cyanobacterial Cl--pumping rhodopsin and its functionally divergent mutant that reveal how these transmembrane proteins create a gradient of activity with subtle changes. These insights are paralleled by a second recent report, which in combination answers long-standing questions about rhodopsin selectivity and will facilitate future engineering efforts.

Entities: Gene

Year: 2020 PMID： 33127867 PMCID： PMC7606678 DOI： 10.1074/jbc.H120.016032

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

10 in total

1. Characterization of a Cyanobacterial Chloride-pumping Rhodopsin and Its Conversion into a Proton Pump.

Authors: Takatoshi Hasemi; Takashi Kikukawa; Naoki Kamo; Makoto Demura
Journal: J Biol Chem Date: 2015-11-17 Impact factor: 5.157

2. Protein-bound water as the determinant of asymmetric functional conversion between light-driven proton and chloride pumps.

Authors: Kosuke Muroda; Keisuke Nakashima; Mikihiro Shibata; Makoto Demura; Hideki Kandori
Journal: Biochemistry Date: 2012-05-25 Impact factor: 3.162

Review 3. Microbial and animal rhodopsins: structures, functions, and molecular mechanisms.

Authors: Oliver P Ernst; David T Lodowski; Marcus Elstner; Peter Hegemann; Leonid S Brown; Hideki Kandori
Journal: Chem Rev Date: 2013-12-23 Impact factor: 60.622

4. Proton uptake mechanism in bacteriorhodopsin captured by serial synchrotron crystallography.

Authors: Tobias Weinert; Petr Skopintsev; Daniel James; Florian Dworkowski; Ezequiel Panepucci; Demet Kekilli; Antonia Furrer; Steffen Brünle; Sandra Mous; Dmitry Ozerov; Przemyslaw Nogly; Meitian Wang; Jörg Standfuss
Journal: Science Date: 2019-07-05 Impact factor: 47.728

5. A three-dimensional movie of structural changes in bacteriorhodopsin.

Authors: Eriko Nango; Antoine Royant; Minoru Kubo; Takanori Nakane; Cecilia Wickstrand; Tetsunari Kimura; Tomoyuki Tanaka; Kensuke Tono; Changyong Song; Rie Tanaka; Toshi Arima; Ayumi Yamashita; Jun Kobayashi; Toshiaki Hosaka; Eiichi Mizohata; Przemyslaw Nogly; Michihiro Sugahara; Daewoong Nam; Takashi Nomura; Tatsuro Shimamura; Dohyun Im; Takaaki Fujiwara; Yasuaki Yamanaka; Byeonghyun Jeon; Tomohiro Nishizawa; Kazumasa Oda; Masahiro Fukuda; Rebecka Andersson; Petra Båth; Robert Dods; Jan Davidsson; Shigeru Matsuoka; Satoshi Kawatake; Michio Murata; Osamu Nureki; Shigeki Owada; Takashi Kameshima; Takaki Hatsui; Yasumasa Joti; Gebhard Schertler; Makina Yabashi; Ana-Nicoleta Bondar; Jörg Standfuss; Richard Neutze; So Iwata
Journal: Science Date: 2016-12-23 Impact factor: 47.728

6. The crystal structures of a chloride-pumping microbial rhodopsin and its proton-pumping mutant illuminate proton transfer determinants.

Authors: Jessica E Besaw; Wei-Lin Ou; Takefumi Morizumi; Bryan T Eger; Juan D Sanchez Vasquez; Jessica H Y Chu; Andrew Harris; Leonid S Brown; R J Dwayne Miller; Oliver P Ernst
Journal: J Biol Chem Date: 2020-07-23 Impact factor: 5.157

1 in total

1. Earliest Photic Zone Niches Probed by Ancestral Microbial Rhodopsins.

Authors: Cathryn D Sephus; Evrim Fer; Amanda K Garcia; Zachary R Adam; Edward W Schwieterman; Betul Kacar
Journal: Mol Biol Evol Date: 2022-05-03 Impact factor: 8.800

1 in total

Shining light on rhodopsin selectivity: How do proteins decide whether to transport H⁺ or Cl^-?

1. Characterization of a Cyanobacterial Chloride-pumping Rhodopsin and Its Conversion into a Proton Pump.

2. Protein-bound water as the determinant of asymmetric functional conversion between light-driven proton and chloride pumps.

Review 3. Microbial and animal rhodopsins: structures, functions, and molecular mechanisms.

4. Proton uptake mechanism in bacteriorhodopsin captured by serial synchrotron crystallography.

5. A three-dimensional movie of structural changes in bacteriorhodopsin.

6. The crystal structures of a chloride-pumping microbial rhodopsin and its proton-pumping mutant illuminate proton transfer determinants.

7. Structure-Based Functional Modification Study of a Cyanobacterial Chloride Pump for Transporting Multiple Anions.

8. Demonstration of a Light-Driven SO₄^2- Transporter and Its Spectroscopic Characteristics.

9. Specific damage induced by X-ray radiation and structural changes in the primary photoreaction of bacteriorhodopsin.

10. Conversion of bacteriorhodopsin into a chloride ion pump.

1. Earliest Photic Zone Niches Probed by Ancestral Microbial Rhodopsins.