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Related Concept Videos

Protein Complexes with Interchangeable Parts01:57

Protein Complexes with Interchangeable Parts

Groups of proteins may form a complex where each protein in this complex has a different role in the overall execution of the complex’s function. Often some of the proteins in the complex can be replaced by a closely related variant to give a complex that contains many of the same components yet is functionally distinct.
The SCF ubiquitin ligase is a protein complex of five individual proteins. This complex attaches ubiquitin to other target proteins to mark them for degradation. In order to...
Protein Complexes with Interchangeable Parts01:57

Protein Complexes with Interchangeable Parts

Groups of proteins may form a complex where each protein in this complex has a different role in the overall execution of the complex’s function. Often some of the proteins in the complex can be replaced by a closely related variant to give a complex that contains many of the same components yet is functionally distinct.
The SCF ubiquitin ligase is a protein complex of five individual proteins. This complex attaches ubiquitin to other target proteins to mark them for degradation. In order to...
The Supercomplexes in the Crista Membrane01:41

The Supercomplexes in the Crista Membrane

The mitochondrial cristae membrane is the primary site for the oxidative phosphorylation (OXPHOS) process of energy conversion mediated through respiratory complexes I to V. These complexes have been widely studied for decades, and it has been proven that they form supramolecular structures called respiratory supercomplexes (SC). These higher-order complexes may be crucial in maintaining the biochemical structure and improving the physiological activity of the individual complexes while...
Electron Transport Chain: Complex III and IV01:43

Electron Transport Chain: Complex III and IV

During the electron transport chain, electrons from NADH and FADH2 are first transferred to complexes I and II, respectively. These two complexes then transfer the electrons to ubiquinol, which carries them further to complex III. Complex III passes the electrons across the intermembrane space to Cyt c, which carries them further to complex IV. Complex IV donates electrons to oxygen and reduces it to water. As electrons pass through complexes I, III, and IV, the energy released aids the pumping...
Protein Complex Assembly02:41

Protein Complex Assembly

Proteins can form homomeric complexes with another unit of the same protein or heteromeric complexes with different types.  Most protein complexes self-assemble spontaneously via ordered pathways, while some proteins need assembly factors that guide their proper assembly. Despite the crowded intracellular environment, proteins usually interact with their correct partners and form functional complexes.
Many viruses self-assemble into a fully functional unit using the infected host cell to...
Vesicular Tubular Clusters01:45

Vesicular Tubular Clusters

After budding out from the ER membrane, some COPII vesicles lose their coat and fuse with one another to form larger vesicles and interconnected tubules called vesicular tubular clusters or VTCs. These clusters constitute a compartment at the ER-Golgi interface known as ERGIC (Endoplasmic Reticulum Golgi Intermediate Compartment). The ERGIC is a mobile membrane-bound cargo transport system that sorts proteins secreted from ER and delivers them to the Golgi.
With the help of motor proteins such...

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Related Experiment Video

Updated: May 13, 2026

The MultiBac Protein Complex Production Platform at the EMBL
13:51

The MultiBac Protein Complex Production Platform at the EMBL

Published on: July 11, 2013

Multiple Rieske/cytb complexes in a single organism.

F ten Brink1, B Schoepp-Cothenet, R van Lis

  • 1BIP/UMR7281, FR3479, CNRS/AMU, 13 chemin Joseph Aiguier, 13009 Marseille, France.

Biochimica Et Biophysica Acta
|March 20, 2013
PubMed
Summary
This summary is machine-generated.

Many organisms possess multiple copies of the Rieske/cytochrome b (cytb) complex, an essential enzyme in electron transfer chains. This review explores the distribution and specialized functions of these redundant complexes across diverse species.

Keywords:
BioenergeticsEnergy conservationEnergy metabolismEvolutionQuinoneRieske/cytb complex

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Area of Science:

  • Biochemistry
  • Molecular Biology
  • Microbiology

Background:

  • The Rieske/cytochrome b (cytb) complex is a crucial component of respiratory and photosynthetic electron transfer chains.
  • While typically present as a single copy, multiple copies of this complex are found in various phylogenetically distant organisms.
  • The functional significance of this redundancy remains largely unexplained.

Purpose of the Study:

  • To review the distribution of multiple Rieske/cytb complex copies across different species.
  • To analyze the properties and potential functions of these redundant complexes.
  • To propose future research directions for understanding their roles.

Main Methods:

  • Compilation and analysis of existing experimental data.
  • Bioinformatic analysis of amino acid sequences.
  • Examination of genomic context for duplicated genes.

Main Results:

  • Identified specialized functions for duplicated Rieske/cytb complexes, including reverse electron transfer in iron-oxidizing bacteria.
  • Observed adaptation of multiple copies for interaction with different oxidases in archaeal Thermoprotei.
  • Noted the import of a second complex with a putative heme c(i) in several species, suggesting novel properties.

Conclusions:

  • Multiple copies of the Rieske/cytb complex are not merely redundant but appear to be functionally specialized.
  • Specific adaptations suggest roles in unique metabolic strategies, such as acidophilic iron oxidation and diverse electron acceptors.
  • Further research is needed to elucidate the precise functions and evolutionary advantages of these duplicated complexes.