Thermococcus kodakarensis modulates its polar membrane lipids and elemental composition according to growth stage and phosphate availability

Meador, Travis B.; Gagen, Emma J.; Loscar, Michael E.; Goldhammer, Tobias; Yoshinaga, Marcos Y.; Wendt, Jenny; Thomm, Michael; Hinrichs, Kai‐Uwe

doi:10.3389/fmicb.2014.00010

Cited by 56 publications

(111 citation statements)

References 63 publications

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“…In addition to M. thermautotrophicus (this article and the study of Yoshinaga et al ), methylated GDGTs are produced by several other methanogenic Euryarchaeota , including the (hyper)thermophiles M. marburgensis and Methanosaeta thermophila , and the mesophiles Methanobrevibacter smithii and Methanosphaera stadtmanae . Less closely affiliated hyperthermophiles Thermococcus kodakarensis and Methanopyrus kandleri produce methylated GDGTs or GMGTs, respectively . Unidentified lipid cores from the thermoacidophile Thermoplasma acidophilum (with [M+H] + at m/z 1308, 1306 and 1304) are consistent with GDGT‐4b, ‐5b and ‐6b .…”

Section: Resultsmentioning

confidence: 83%

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Mono‐, di‐ and trimethylated homologues of isoprenoid tetraether lipid cores in archaea and environmental samples: mass spectrometric identification and significance

et al. 2015

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Higher homologues of widely reported C(86) isoprenoid diglycerol tetraether lipid cores, containing 0-6 cyclopentyl rings, have been identified in (hyper)thermophilic archaea, representing up to 21% of total tetraether lipids in the cells. Liquid chromatography-tandem mass spectrometry confirms that the additional carbon atoms in the C(87-88) homologues are located in the etherified chains. Structures identified include dialkyl and monoalkyl ('H-shaped') tetraethers containing C(40-42) or C(81-82) hydrocarbons, respectively, many representing novel compounds. Gas chromatography-mass spectrometric analysis of hydrocarbons released from the lipid cores by ether cleavage suggests that the C(40) chains are biphytanes and the C(41) chains 13-methylbiphytanes. Multiple isomers, having different chain combinations, were recognised among the dialkyl lipids. Methylated tetraethers are produced by Methanothermobacter thermautotrophicus in varying proportions depending on growth conditions, suggesting that methylation may be an adaptive mechanism to regulate cellular function. The detection of methylated lipids in Pyrobaculum sp. AQ1.S2 and Sulfolobus acidocaldarius represents the first reported occurrences in Crenarchaeota. Soils and aquatic sediments from geographically distinct mesotemperate environments that were screened for homologues contained monomethylated tetraethers, with di- and trimethylated structures being detected occasionally. The structural diversity and range of occurrences of the C(87-89) tetraethers highlight their potential as complementary biomarkers for archaea in natural environments.

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Section: Resultsmentioning

confidence: 83%

“…1,2,3‐butanetriol), 1‐methoxyglycerol groups or homoisoprenoids (e.g. C 41 homobiphytanes; HBPs) . The latter are exemplified by C 87 lipid GDGT‐0b, shown by NMR analysis to contain acyclic biphytane (BP0) and 13‐methylbiphytane (HBP0) chains (Fig.…”

Section: Introductionmentioning

confidence: 99%

Mono‐, di‐ and trimethylated homologues of isoprenoid tetraether lipid cores in archaea and environmental samples: mass spectrometric identification and significance

et al. 2015

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“…Simpson Diversity indices (D) were calculated after Simpson () using relative abundances of core lipid‐headgroup combinations for each strain (Meador et al ., ):

D = 1 - \sum_{n = 1}^{118} {(relative abundance)}^{2}

…”

Section: Methodsmentioning

confidence: 99%

Chemotaxonomic characterisation of the thaumarchaeal lipidome

Elling

Könneke

Nicol

et al. 2017

Environmental Microbiology

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Thaumarchaeota are globally distributed and abundant microorganisms occurring in diverse habitats and thus represent a major source of archaeal lipids. The scope of lipids as taxonomic markers in microbial ecological studies is limited by the scarcity of comparative data on the membrane lipid composition of cultivated representatives, including the phylum Thaumarchaeota. Here, we comprehensively describe the core and intact polar lipid (IPL) inventory of ten ammonia-oxidising thaumarchaeal cultures representing all four characterized phylogenetic clades. IPLs of these thaumarchaeal strains are generally similar and consist of membrane-spanning, glycerol dibiphytanyl glycerol tetraethers with monoglycosyl, diglycosyl, phosphohexose and hexose-phosphohexose headgroups. However, the relative abundances of these IPLs and their core lipid compositions differ systematically between the phylogenetic subgroups, indicating high potential for chemotaxonomic distinction of thaumarchaeal clades. Comparative lipidomic analyses of 19 euryarchaeal and crenarchaeal strains suggested that the lipid methoxy archaeol is synthesized exclusively by Thaumarchaeota and may thus represent a diagnostic lipid biomarker for this phylum. The unprecedented diversity of the thaumarchaeal lipidome with 118 different lipids suggests that membrane lipid composition and adaptation mechanisms in Thaumarchaeota are more complex than previously thought and include unique lipids with as yet unresolved properties.

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“…The variation observed in tetraether lipids involves the incorporation of one or more pentacycles, the incorporation of a single hexamer, the addition of methyl groups, or the incorporation of bridges between the isoprenoids [108,[546][547][548]. Tetraether lipids are believed to contribute considerably to an increased stability, permeability and resistance of the membrane [540,549].…”

Section: Introductionmentioning

confidence: 99%

“…This discrepancy might, for example, be explained by the possibility that the diether accumulation upon terbinafine exposure is the result of growth retention by toxicity rather than the selective inhibition of an enzyme. Especially, as it has been demonstrated several times that the ratio of dietherto-tetraether is highly dependent on growth phase as well [546,547,559,560].…”

Section: Introductionmentioning

confidence: 99%

Thermococcus kodakarensis : the key to affordable biohydrogen production

Spaans¹

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Thermococcus kodakarensis modulates its polar membrane lipids and elemental composition according to growth stage and phosphate availability

Cited by 56 publications

References 63 publications

Mono‐, di‐ and trimethylated homologues of isoprenoid tetraether lipid cores in archaea and environmental samples: mass spectrometric identification and significance

Mono‐, di‐ and trimethylated homologues of isoprenoid tetraether lipid cores in archaea and environmental samples: mass spectrometric identification and significance

Chemotaxonomic characterisation of the thaumarchaeal lipidome

Thermococcus kodakarensis : the key to affordable biohydrogen production

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