Proteomics

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A mitochondrion-free eukaryote contains proteins preadapted for import into an exogenous mitochondrion-related organelle


ABSTRACT: The endobiotic flagellate Monocercomonoides exilis is the only eukaryote known to lose any form of mitochondria and all its associated proteins in its evolutionary past. This final stage of the mitochondrial evolutionary pathway may serve as a model to explain events at their very beginning such as the initiation of protein import. We have assessed the preadaptation of proteins in this mitochondrion-free cell to enter emerging mitochondria using a specifically designed in vitro assay. In this experiment, hydrogenosomes (reduced mitochondria) of Trichomonas vaginalis were incubated with a soluble protein pool derived from a cytosolic fraction of M. exilis, and proteins entering hydrogenosomes were subsequently detected by mass spectrometry. The assay detected 19 specifically and reproducibly imported proteins, and in 14 cases, import was confirmed by the overexpression of their tagged version in the T. vaginalis heterologous system and visualization by immunofluorescence and western blot. In most cases, only a small portion of the signal reached the hydrogenosomes, suggesting specific but inefficient transport. Most of these proteins represent enzymes of carbon metabolism, and none exhibited conspicuous signatures of proteins targeted to hydrogenosomes or mitochondria, which is consistent with their inefficient import. The observed phenomenon may resemble a primaeval type of protein import which might play a role in the establishing of the organelle and shaping of its proteome in the initial stages of endosymbiosis.

INSTRUMENT(S): Orbitrap Fusion

ORGANISM(S): Trichomonas Vaginalis

SUBMITTER: Karel Harant  

LAB HEAD: Vladimir Hampl

PROVIDER: PXD035701 | Pride | 2023-03-11

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
703-A0.CID.ITMS.peak.apl Other
703-A0.HCD.ITMS.peak.apl Other
703-A0.raw Raw
703-A1.CID.ITMS.peak.apl Other
703-A1.HCD.ITMS.peak.apl Other
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Publications

A mitochondrion-free eukaryote contains proteins capable of import into an exogenous mitochondrion-related organelle.

Fang Yi-Kai YK   Vaitová Zuzana Z   Hampl Vladimir V  

Open biology 20230111 1


The endobiotic flagellate <i>Monocercomonoides exilis</i> is the only known eukaryote to have lost mitochondria and all its associated proteins in its evolutionary past. This final stage of the mitochondrial evolutionary pathway may serve as a model to explain events at their very beginning such as the initiation of protein import. We have assessed the capability of proteins from this eukaryote to enter emerging mitochondria using a specifically designed <i>in vitro</i> assay. Hydrogenosomes (re  ...[more]

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