NMR insights into dynamics regulated target binding of DLC8 dimer

Conformational dynamics play a crucial role in biological function. Dynein light chain protein (DLC8) acts as a cargo adaptor, and exists as a dimer under physiological conditions and dissociates into monomer below pH 4. In the present NMR study, we identified some dynamic residues in the dimer usin...

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Veröffentlicht in:	Biochemical and biophysical research communications 2007-04, Vol.355 (4), p.950-955
Hauptverfasser:	Krishna Mohan, P.M., Hosur, Ramakrishna V.
Format:	Artikel
Sprache:	eng
Schlagworte:	60 APPLIED LIFE SCIENCES BIOLOGICAL FUNCTIONS CARGO Cargo trafficking CHEMICAL SHIFT Chromatography, Gel Circular dichroism DICHROISM Dimerization DIMERS Dynein light chain protein Dyneins - chemistry Dyneins - metabolism Enzyme Stability Gel filtration GELS Hydrogen-Ion Concentration Models, Molecular NUCLEAR MAGNETIC RESONANCE Nuclear Magnetic Resonance, Biomolecular PEPTIDES Peptides - chemistry Peptides - metabolism pH sensitivity PH VALUE Protein Binding Protein Structure, Tertiary TEMPERATURE COEFFICIENT Temperature coefficients TEMPERATURE DEPENDENCE VISIBLE RADIATION
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container_title	Biochemical and biophysical research communications
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creator	Krishna Mohan, P.M. Hosur, Ramakrishna V.
description	Conformational dynamics play a crucial role in biological function. Dynein light chain protein (DLC8) acts as a cargo adaptor, and exists as a dimer under physiological conditions and dissociates into monomer below pH 4. In the present NMR study, we identified some dynamic residues in the dimer using chemical shift perturbation approach by applying small pH change. As evidenced by gel filtration and CD studies, this small pH change does not alter the globular structural features of the protein. In fact, these changes result in small local stability perturbations as monitored using temperature dependence of amide proton chemical shifts, and influence the dynamics of the dimer substantially. Further, interaction studies of the protein with a peptide containing the recognition motif of cargo indicated that the efficacy of peptide binding decreases when the pH is reduced from 7 to 6. These observations taken together support the conception that dynamics can regulate cargo binding/trafficking by the DLC8 dimer.
doi_str_mv	10.1016/j.bbrc.2007.02.072
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Dynein light chain protein (DLC8) acts as a cargo adaptor, and exists as a dimer under physiological conditions and dissociates into monomer below pH 4. In the present NMR study, we identified some dynamic residues in the dimer using chemical shift perturbation approach by applying small pH change. As evidenced by gel filtration and CD studies, this small pH change does not alter the globular structural features of the protein. In fact, these changes result in small local stability perturbations as monitored using temperature dependence of amide proton chemical shifts, and influence the dynamics of the dimer substantially. Further, interaction studies of the protein with a peptide containing the recognition motif of cargo indicated that the efficacy of peptide binding decreases when the pH is reduced from 7 to 6. 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Dynein light chain protein (DLC8) acts as a cargo adaptor, and exists as a dimer under physiological conditions and dissociates into monomer below pH 4. In the present NMR study, we identified some dynamic residues in the dimer using chemical shift perturbation approach by applying small pH change. As evidenced by gel filtration and CD studies, this small pH change does not alter the globular structural features of the protein. In fact, these changes result in small local stability perturbations as monitored using temperature dependence of amide proton chemical shifts, and influence the dynamics of the dimer substantially. Further, interaction studies of the protein with a peptide containing the recognition motif of cargo indicated that the efficacy of peptide binding decreases when the pH is reduced from 7 to 6. 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subjects	60 APPLIED LIFE SCIENCES BIOLOGICAL FUNCTIONS CARGO Cargo trafficking CHEMICAL SHIFT Chromatography, Gel Circular dichroism DICHROISM Dimerization DIMERS Dynein light chain protein Dyneins - chemistry Dyneins - metabolism Enzyme Stability Gel filtration GELS Hydrogen-Ion Concentration Models, Molecular NUCLEAR MAGNETIC RESONANCE Nuclear Magnetic Resonance, Biomolecular PEPTIDES Peptides - chemistry Peptides - metabolism pH sensitivity PH VALUE Protein Binding Protein Structure, Tertiary TEMPERATURE COEFFICIENT Temperature coefficients TEMPERATURE DEPENDENCE VISIBLE RADIATION
title	NMR insights into dynamics regulated target binding of DLC8 dimer
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