Gamma carbonic anhydrases are subunits of the mitochondrial complex I of diatoms

Diatoms are unicellular organisms containing red algal‐derived plastids that probably originated as result of serial endosymbioses between an ancestral heterotrophic organism and a red alga or cryptophyta algae from which has only the chloroplast left. Diatom mitochondria are thus believed to derive from the exosymbiont. Unlike animals and fungi, diatoms seem to contain ancestral respiratory chains. In support of this, genes encoding gamma type carbonic anhydrases (CAs) whose products were shown to be intrinsic complex I subunits in plants, Euglena and Acanthamoeba were found in diatoms, a representative of Stramenopiles. In this work, we experimentally show that mitochondrial complex I in diatoms is a large complex containing gamma type CA subunits, supporting an ancestral origin. By using a bioinformatic approach, a complex I integrated CA domain with heterotrimeric subunit composition is proposed. Diatom complex I is a large complex containing gamma type carbonic anhydrases (γCAs) as it was shown in plants, Euglena and Acanthamoeba. A heterotrimeric arrangement of three different subunits is proposed in diatoms in order to form an active site.