Gene deletions leading to a reduction in the number of cyclopentane rings in Sulfolobus acidocaldarius tetraether lipids.

Ziqiang Guan,Phillip Nußbaum,Benjamin H Meyer,Antonia Delago,Jerry Eichler,Sonja-Verena Albers

doi:10.1093/femsle/fnx250

Ziqiang Guan, Phillip Nußbaum + Show 4 more

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https://doi.org/10.1093/femsle/fnx250

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Abstract

The cell membrane of (hyper)thermophilic archaea, including the thermoacidophile Sulfolobus acidocaldarius, incorporates dibiphytanylglycerol tetraether lipids. The hydrophobic cores of such tetraether lipids can include up to eight cyclopentane rings. Presently, nothing is known of the biosynthesis of these rings. In this study, a series of S. acidocaldarius mutants deleted of genes currently annotated as encoding proteins involved in sugar/polysaccharide processing were generated and their glycolipids were considered. Whereas the glycerol-dialkyl-glycerol tetraether core of a S. acidocaldarius tetraether glycolipid considered here mostly includes four cyclopentane rings, in cells where the Saci_0421 or Saci_1201 genes had been deleted, species containing zero, two or four cyclopentane rings were observed. At the same time, in cells lacking Saci_0201, Saci_0275, Saci_1101, Saci_1249 or Saci_1706, lipids containing mostly four cyclopentane rings were detected. Although Saci_0421 and Saci_1201 are not found in proximity to other genes putatively involved in lipid biosynthesis, homologs of these sequences exist in other Archaea containing cyclopentane-containing tetraether lipids. Thus, Saci_0421 and Saci_1201 represent the first proteins described that somehow contribute to the appearance of cyclopentane rings in the core moiety of the S. acidocaldarius glycolipid considered here.

Highlights

35 The lipids that comprise biological membranes serve to distinguish Archaea from Eukarya and Bacteria
210 As part of ongoing efforts aimed at defining novel components of the pathway for protein N-glycosylation in Sulfolobus acidocaldarius, a number of genes encoding products suspected of contributing to this post-translational modification (Saci 0201, Saci 0275, Saci 0421, Saci 1101, Saci 1201, Saci 1249 and Saci 1706)
Given that distinct genes contribute to protein glycosylation and lipid glycosylation in the halophilic archaea Haloferax volcanii (Naparstek, Vinagradov and Eichler 2010), efforts focused on assessing whether the absence of Saci 0201, Saci 0275, Saci 0421, 225

Summary

Introduction

35 The lipids that comprise biological membranes serve to distinguish Archaea from Eukarya and Bacteria. Two 40 carbon-long isoprenoid chains are ether-linked to glycerol backbones at each end or to 50 a glycerol or a calditol group at either end, which in turn can present different head groups (Chong 2010; Chong et al 2012). These hydrophobic cores of tetraether lipids, i.e. caldarchaeol (or glycerol-dialkyl-glycerol tetraether, GDGT) and calditoglycerocaldarchaeol (or glycerol-dialkyl-nonitol tetraether, GDNT), 55 can include up to eight cyclopentane rings (Chong 2010; Chong et al 2012)

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