Cryo-EM structure and function of S. pombe complex IV with bound respiratory supercomplex factor

Fission yeast Schizosaccharomyces pombe serves as model organism for studying higher eukaryotes. We combined the use of cryo-EM and spectroscopy to investigate the structure and function of affinity purified respiratory complex IV (CIV) from S. pombe. The reaction sequence of the reduced enzyme with O-2 proceeds over a time scale of mu s-ms, similar to that of the mammalian CIV. The cryo-EM structure of CIV revealed eleven subunits as well as a bound hypoxia-induced gene 1 (Hig1) domain of respiratory supercomplex factor 2 (Rcf2). These results suggest that binding of Rcf2 does not require the presence of a CIII-CIV supercomplex, i.e. Rcf2 is a component of CIV. An AlphaFold-Multimer model suggests that the Hig1 domains of both Rcf1 and Rcf2 bind at the same site of CIV suggesting that their binding is mutually exclusive. Furthermore, the differential functional effect of Rcf1 or Rcf2 is presumably caused by interactions of CIV with their different non-Hig1 domain parts. Fission yeast Schizosaccharomyces pombe shares many characteristics with higher eukaryotes. Here, the authors investigate the structure and function of respiratory complex IV from S. pombe, reveal the subunit arrangements and the reaction sequence of O-2 reduction.

Automated summary

This study investigates the structure and function of respiratory complex IV from the fission yeast Schizosaccharomyces pombe. The authors reveal the arrangement of subunits and the reaction sequence of O-2 reduction. The results suggest that Rcf2 is a component of CIV and its binding does not require the presence of a CIII-CIV supercomplex.