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The cell envelope of <i>Thermotogae</i> suggests a mechanism for outer membrane biogenesis

Danielle L. Sexton, Ameena Hashimi, Polina Beskrovnaya, Lloyd Sibanda, Tao Huan, Elitza I. Tocheva

2023Proceedings of the National Academy of Sciences10 citationsDOIOpen Access PDF

Abstract

The presence of a cell membrane is one of the major structural components defining life. Recent phylogenomic analyses have supported the hypothesis that the last universal common ancestor (LUCA) was likely a diderm. Yet, the mechanisms that guided outer membrane (OM) biogenesis remain unknown. Thermotogae is an early-branching phylum with a unique OM, the toga. Here, we use cryo-electron tomography to characterize the in situ cell envelope architecture of Thermotoga maritima and show that the toga is made of extended sheaths of β-barrel trimers supporting small (~200 nm) membrane patches. Lipidomic analyses identified the same major lipid species in the inner membrane (IM) and toga, including the rare to bacteria membrane-spanning ether-bound diabolic acids (DAs). Proteomic analyses revealed that the toga was composed of multiple SLH-domain containing Ompα and novel β-barrel proteins, and homology searches detected variable conservations of these proteins across the phylum. These results highlight that, in contrast to the SlpA/OmpM superfamily of proteins, Thermotoga possess a highly diverse bipartite OM-tethering system. We discuss the implications of our findings with respect to other early-branching phyla and propose that a toga-like intermediate may have facilitated monoderm-to-diderm cell envelope transitions.

Topics & Concepts

BiogenesisBiologyPhylumCell envelopeThermotoga maritimaMost recent common ancestorCell biologyBiochemistryPhylogeneticsGeneEscherichia coliGenomics and Phylogenetic StudiesMicrobial Community Ecology and PhysiologyProtist diversity and phylogeny
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