The Obligate Predatory Bdellovibrio bacteriovorus Possesses a Neutral Lipid A Containing α-D-Mannoses That Replace Phosphate Residues

Schwudke, Dominik; Linscheid, Michael; Strauch, Eckhard; Appel, Bernd; Zähringer, Ulrich; Moll, Hermann; Müller, Maria; Brecker, Lothar; Gronow, Sabine; Lindner, Buko

doi:10.1074/jbc.m303012200

Cited by 93 publications

(53 citation statements)

References 40 publications

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“…The third mannose unit was a-(1!1)-linked to the reducing GlcpN3N residue. Such a lipid A structure has not yet been identified in rhizobial LPS, however, it resembles the lipid A isolated from Bdellovibrio bacteriovorus, [26] which contained two mannose residues that decorated the backbone at C-4' and C-1. Another example of mannose-containing lipid A is that derived from the phototrophic bacterium Rhodomicrobium vanniellii, in which the C-4' of the phosphate-free GlcpN disaccharide backbone was substituted by a mannose residue.…”

Section: Discussionmentioning

confidence: 97%

The Structure of a Novel Neutral Lipid A from the Lipopolysaccharide of Bradyrhizobium elkanii Containing Three Mannose Units in the Backbone

Komaniecka

Choma

Lindner

et al. 2010

Chemistry A European J

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The chemical structure of the lipid A of the lipopolysaccharide (LPS) from Bradyrhizobium elkanii USDA 76 (a member of the group of slow-growing rhizobia) has been established. It differed considerably from lipids A of other Gram-negative bacteria, in that it completely lacks negatively charged groups (phosphate or uronic acid residues); the glucosamine (GlcpN) disaccharide backbone is replaced by one consisting of 2,3-dideoxy-2,3-diamino-D-glucopyranose (GlcpN3N) and it contains two long-chain fatty acids, which is unusual among rhizobia. The GlcpN3N disaccharide was further substituted by three D-mannopyranose (D-Manp) residues, together forming a pentasaccharide. To establish the structural details of this molecule, 1D and 2D NMR spectroscopy, chemical composition analyses and high-resolution mass spectrometry methods (electrospray ionisation Fourier-transform ion cyclotron resonance mass spectrometry (ESI FT-ICR MS) and tandem mass spectrometry (MS/MS)) were applied. By using 1D and 2D NMR spectroscopy experiments, it was confirmed that one D-Manp was linked to C-1 of the reducing GlcpN3N and an alpha-(1-->6)-linked D-Manp disaccharide was located at C-4' of the non-reducing GlcpN3N (alpha-linkage). Fatty acid analysis identified 12:0(3-OH) and 14:0(3-OH), which were amide-linked to GlcpN3N. Other lipid A constituents were long (omega-1)-hydroxylated fatty acids with 26-33 carbon atoms, as well as their oxo forms (28:0(27-oxo) and 30:0(29-oxo)). The 28:0(27-OH) was the most abundant acyl residue. As confirmed by high-resolution mass spectrometry techniques, these long-chain fatty acids created two acyloxyacyl residues with the 3-hydroxy fatty acids. Thus, lipid A from B. elkanii comprised six acyl residues. It was also shown that one of the acyloxyacyl residues could be further acylated by 3-hydroxybutyric acid (linked to the (omega-1)-hydroxy group).

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Section: Discussionmentioning

confidence: 97%

The Structure of a Novel Neutral Lipid A from the Lipopolysaccharide of Bradyrhizobium elkanii Containing Three Mannose Units in the Backbone

Komaniecka

Choma

Lindner

et al. 2010

Chemistry A European J

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“…Mannose-containing lipid A samples were identified earlier in the predatory bacterium Bdellovibrio bacteriovorus, where mannose residues occupied positions C-1 and C-4Ј of the D-GlcpN3N-disaccharide (49), and in phototrophic bacterium Rhodomicrobium vannielli (50), in which the C-4Ј of the glucosaminyl disaccharide backbone was occupied by one mannose residue. Recently, we reported the presence of a neutral mannose-containing lipid A in LPS of B. elkanii USDA 76 (21).…”

Section: Discussionmentioning

confidence: 99%

Occurrence of an Unusual Hopanoid-containing Lipid A Among Lipopolysaccharides from Bradyrhizobium Species

Komaniecka

Choma

Mazur

et al. 2014

Journal of Biological Chemistry

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Background: Hopanoids are present in bradyrhizobial lipid A preparations. Results: Signals from hopanoid carboxyl shows strong correlation with the proton geminal to the hydroxy group of ester-linked long chain fatty acid. Conclusion: Hopanoids are covalently linked to the lipid A of Bradyrhizobium. Significance: The presence of such an unusual lipid A substituent may have a strong influence on the membrane properties of Bradyrhizobium.

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“…Moreover, phosphate groups can be substituted by further phosphate groups, producing a pyrophosphate, but also by other polar substituents, such as 4-amino-4-deoxy-L-arabinopyranose (arabinosamine, Arap4N) and 2-amino-ethanol groups (EtN), or by acid residues, such as galacturonic acid (GalpA). Phosphate groups can be absent as in the case of Bdellovibrio bacteriovorus LPS lipid A that is characterized by the replacement of phosphate groups with two mannose residues, generating a totally neutral lipid A [27]. Exceptionally, the lipid A of the marine bacterium Loktanella rosea has a very unusual structure, as the molecule is non-phosphorylated, both GlcpN residues are β-linked, and the GlcpN I forms with α-GalpA a unique mixed trehalose-like structure [28].…”

Section: The Endotoxic Centre Of Lpss: the Lipid A Moietymentioning

confidence: 98%

Bacterial Lipopolysaccharides: An Overview of Their Structure, Biosynthesis and Immunological Activity

Lorenzo¹,

Silipo²,

Lanzetta³

et al. 2015

Carbohydrate Chemistry: State of the Art and Challenges for Drug Development

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The Obligate Predatory Bdellovibrio bacteriovorus Possesses a Neutral Lipid A Containing α-D-Mannoses That Replace Phosphate Residues

Cited by 93 publications

References 40 publications

The Structure of a Novel Neutral Lipid A from the Lipopolysaccharide of Bradyrhizobium elkanii Containing Three Mannose Units in the Backbone

The Structure of a Novel Neutral Lipid A from the Lipopolysaccharide of Bradyrhizobium elkanii Containing Three Mannose Units in the Backbone

Occurrence of an Unusual Hopanoid-containing Lipid A Among Lipopolysaccharides from Bradyrhizobium Species

Bacterial Lipopolysaccharides: An Overview of Their Structure, Biosynthesis and Immunological Activity

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