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Checkpoints That Regulate Balanced Biosynthesis of Lipopolysaccharide and Its Essentiality in Escherichia coli

Gracjana Klein, Alicja Wieczorek, Martyna Szuster, Satish Raina

2021International Journal of Molecular Sciences18 citationsDOIOpen Access PDF

Abstract

, is essential for their viability. Lipopolysaccharide (LPS) constitutes the major component of OM, providing the permeability barrier, and a tight balance exists between LPS and phospholipids amounts as both of these essential components use a common metabolic precursor. Hence, checkpoints are in place, right from the regulation of the first committed step in LPS biosynthesis mediated by LpxC through its turnover by FtsH and HslUV proteases in coordination with LPS assembly factors LapB and LapC. After the synthesis of LPS on the inner leaflet of the inner membrane (IM), LPS is flipped by the IM-located essential ATP-dependent transporter to the periplasmic face of IM, where it is picked up by the LPS transport complex spanning all three components of the cell envelope for its delivery to OM. MsbA exerts its intrinsic hydrocarbon ruler function as another checkpoint to transport hexa-acylated LPS as compared to underacylated LPS. Additional checkpoints in LPS assembly are: LapB-assisted coupling of LPS synthesis and translocation; cardiolipin presence when LPS is underacylated; the recruitment of RfaH transcriptional factor ensuring the transcription of LPS core biosynthetic genes; and the regulated incorporation of non-stoichiometric modifications, controlled by the stress-responsive RpoE sigma factor, small RNAs and two-component systems.

Topics & Concepts

Bacterial outer membranePeriplasmic spaceEscherichia coliLipopolysaccharideCell biologyCell envelopeInner membraneLipid ASigma factorBiologyBiochemistryCardiolipinBiosynthesisTranscription factorTwin-arginine translocation pathwayChemistryMembrane transport proteinPhospholipidMembrane proteinGeneRNA polymeraseMembraneEndocrinologyBacterial Genetics and BiotechnologyRNA and protein synthesis mechanismsEscherichia coli research studies
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