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Transmembrane signaling and cytoplasmic signal conversion by dimeric transmembrane helix 2 and a linker domain of the DcuS sensor kinase

2020

Transmembrane (TM) signaling is a key process of membrane-bound sensor kinases. The C4-dicarboxylate (fumarate) responsive sensor kinase DcuS of Escherichia coli is anchored by TM helices TM1 and TM2 in the membrane. Signal transmission across the membrane relies on the piston-type movement of the periplasmic part of TM2. To define the role of TM2 in TM signaling, we use oxidative Cys cross-linking to demonstrate that TM2 extends over the full distance of the membrane and forms a stable TM homodimer in both the inactive and fumarate-activated state of DcuS. An S186xxxGxxxG194 motif is required for the stability and function of the TM2 homodimer. The TM2 helix further extends on the periplas…

0301 basic medicineCytoplasmGpA glycophorin AC4DC C4-dicarboxylateCL cross-linkingpiston-typeMBP maltose-binding proteinBiochemistry03 medical and health sciencesProtein DomainsDcuSEscherichia coli(Gly)xxx(Gly) motifMolecular Biologysensor kinasefumarate030102 biochemistry & molecular biologyChemistryEscherichia coli ProteinsCell MembraneHistidine kinaseGene Expression Regulation BacterialCell BiologyPeriplasmic spacelinkerTransmembrane proteinoxidative Cys cross-linkingTransmembrane domain030104 developmental biologyMembrane proteinProtein kinase domainHelixBiophysicsProtein MultimerizationProtein Kinasestransmembrane signalingLinkerResearch ArticleTM transmembraneJournal of Biological Chemistry
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