about
Cardiolipin externalization to the outer mitochondrial membrane acts as an elimination signal for mitophagy in neuronal cellsDesigning inhibitors of cytochrome c/cardiolipin peroxidase complexes: mitochondria-targeted imidazole-substituted fatty acidsCoupling between catalytic site and collective dynamics: a requirement for mechanochemical activity of enzymesHigh-efficiency bypass of DNA damage by human DNA polymerase QDruggability Assessment of Allosteric Proteins by Dynamics Simulations in the Presence of Probe MoleculesStructure, Dynamics, and Allosteric Potential of Ionotropic Glutamate Receptor N-Terminal DomainsThe interface of protein structure, protein biophysics, and molecular evolutionComplete mapping of substrate translocation highlights the role of LeuT N-terminal segment in regulating transport cycleExploring the conformational transitions of biomolecular systems using a simple two-state anisotropic network modelChanges in dynamics upon oligomerization regulate substrate binding and allostery in amino acid kinase family membersDynamics and allosteric potential of the AMPA receptor N-terminal domainComparative Dynamics of NMDA- and AMPA-Glutamate Receptor N-Terminal DomainsInhibition of Peroxidase Activity of Cytochrome c: De Novo Compound Discovery and ValidationComputational insights on the competing effects of nitric oxide in regulating apoptosisDynamics of large proteins through hierarchical levels of coarse-grained structures.Mining frequent patterns in protein structures: a study of protease families.iGNM: a database of protein functional motions based on Gaussian Network Model.Markov methods for hierarchical coarse-graining of large protein dynamics.FlexE: Using elastic network models to compare models of protein structure.The intrinsic dynamics of enzymes plays a dominant role in determining the structural changes induced upon inhibitor bindingPre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteinsTime-resolved mechanism of extracellular gate opening and substrate binding in a glutamate transporter.Molecular simulations elucidate the substrate translocation pathway in a glutamate transporter.Principal component analysis of native ensembles of biomolecular structures (PCA_NEST): insights into functional dynamics.In vivo structure-activity relationship studies support allosteric targeting of a dual specificity phosphatase.Interplay between arginine methylation and ubiquitylation regulates KLF4-mediated genome stability and carcinogenesis.ClustENM: ENM-Based Sampling of Essential Conformational Space at Full Atomic Resolution.Escherichia coli adenylate kinase dynamics: comparison of elastic network model modes with mode-coupling (15)N-NMR relaxation data.The center for causal discovery of biomedical knowledge from big dataDiscovery and characterization of novel small molecule inhibitors of human Cdc25B dual specificity phosphatase.Insights into equilibrium dynamics of proteins from comparison of NMR and X-ray data with computational predictions.A stable three-enzyme creatinine biosensor. 1. Impact of structure, function and environment on PEGylated and immobilized sarcosine oxidase.A stable three enzyme creatinine biosensor. 2. Analysis of the impact of silver ions on creatine amidinohydrolase.Topological basis of signal integration in the transcriptional-regulatory network of the yeast, Saccharomyces cerevisiaeStructurally unique inhibitors of human mitogen-activated protein kinase phosphatase-1 identified in a pyrrole carboxamide library.Recruitment of rare 3-grams at functional sites: is this a mechanism for increasing enzyme specificity?Signal propagation in proteins and relation to equilibrium fluctuationsToward a molecular understanding of the interaction of dual specificity phosphatases with substrates: insights from structure-based modeling and high throughput screening.Allosteric transitions of supramolecular systems explored by network models: application to chaperonin GroEL.Zebrafish chemical screening reveals an inhibitor of Dusp6 that expands cardiac cell lineages.
P50
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P50
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bioloog
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name
Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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type
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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prefLabel
Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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Ivet Bahar
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P214
P244
P2038
Ivet_Bahar
P2080
P21
P213
0000 0000 4923 4298
P214
P244
no2006026553
P31
P569
1958-01-01T00:00:00Z
P7859
lccn-no2006026553