Search results for "EspF"

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1H, 13C, and 15N NMR chemical shift assignment of the complex formed by the first EPEC EspF repeat and N-WASP GTPase binding domain

2021

AbstractLEE-encoded effector EspF (EspF) is an effector protein part of enteropathogenic Escherichia coli’s (EPEC’s) arsenal for intestinal infection. This intrinsically disordered protein contains three highly conserved repeats which together compose over half of the protein’s complete amino acid sequence. EPEC uses EspF to hijack host proteins in order to promote infection. In the attack EspF is translocated, together with other effector proteins, to host cell via type III secretion system. Inside host EspF stimulates actin polymerization by interacting with Neural Wiskott-Aldrich syndrome protein (N-WASP), a regulator in actin polymerization machinery. It is presumed that EspF acts by di…

030303 biophysicsRegulatormacromolecular substancesBiochemistryArticleType three secretion system03 medical and health sciencesStructural BiologyEnteropathogenic Escherichia coliNMR-spektroskopiaN-WASPPeptide sequenceActin030304 developmental biologysolution NMRSolution NMR0303 health sciencesEffectorChemistryResonance assignmentsresonance assignmentsNuclear magnetic resonance spectroscopyintrinsically disordered protein3. Good healthCell biologytype III secretion systemType III secretion systemIntrinsically disordered proteinEPEC EspFproteiinitGTPase bindingBiomolecular Nmr Assignments
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HACANCOi : a new Hα-detected experiment for backbone resonance assignment of intrinsically disordered proteins

2020

AbstractUnidirectional coherence transfer is highly efficient in intrinsically disordered proteins (IDPs). Their elevated ps-ns timescale dynamics ensures long transverse (T2) relaxation times allowing sophisticated coherence transfer pathway selection in comparison to folded proteins. 1Hα-detection ensures non-susceptibility to chemical exchange with the solvent and enables chemical shift assignment of consecutive proline residues, typically abundant in IDPs. However, many IDPs undergo a disorder-to-order transition upon interaction with their target protein, which leads to the loss of the favorable relaxation properties. Long coherence transfer routes now result in prohibitively large dec…

chemistry.chemical_classificationSpinsbiologyChemistryGlobular proteinRelaxation (NMR)E. coliIDPGB1Intrinsically disordered proteinsintrinsically disordered proteinBiochemistryResonance (particle physics)Chemical physicsSNX9 SH3biology.proteinTarget proteinProtein GproteiinitNMR-spektroskopiaSpectroscopyEspFresonance assignmentCoherence (physics)
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