about
A structural insight into lead neurotoxicity and calmodulin activation by heavy metalsHigh-resolution structural analysis of mammalian profilin 2a complex formation with two physiological ligands: the formin homology 1 domain of mDia1 and the proline-rich domain of VASPDomain Swapping and Different Oligomeric States for the Complex Between Calmodulin and the Calmodulin-Binding Domain of Calcineurin ACollapsin response mediator protein 2: high-resolution crystal structure sheds light on small-molecule binding, post-translational modifications, and conformational flexibility.Structural similarities and functional differences clarify evolutionary relationships between tRNA healing enzymes and the myelin enzyme CNPaseStructural aspects of nucleotide ligand binding by a bacterial 2H phosphoesteraseCrystallographic anomalous diffraction data for the experimental phasing of two myelin proteins, gliomedin and periaxin.Structure of an unconventional SH3 domain from the postsynaptic density protein Shank3 at ultrahigh resolution.Assembly of the elongated collagen prolyl 4-hydroxylase α2β2 heterotetramer around a central α2 dimer.Membrane Association Landscape of Myelin Basic Protein Portrays Formation of the Myelin Major Dense Line.Molecular mechanisms of Charcot-Marie-Tooth neuropathy linked to mutations in human myelin protein P2.Antagonistic Functions of MBP and CNP Establish Cytosolic Channels in CNS Myelin.CHCHD10 mutations p.R15L and p.G66V cause motoneuron disease by haploinsufficiency.Publisher Correction: Molecular mechanisms of Charcot-Marie-Tooth neuropathy linked to mutations in human myelin protein P2.SUMO on CRMPs - wrestling for pain?The N-terminal domain of the myelin enzyme 2',3'-cyclic nucleotide 3'-phosphodiesterase: direct molecular interaction with the calcium sensor calmodulin.Calcium modulates calmodulin/α-actinin 1 interaction with and agonist-dependent internalization of the adenosine A2A receptor.Structural basis for PDZ domain interactions in the post-synaptic density scaffolding protein Shank3.Structure and dynamics of a human myelin protein P2 portal region mutant indicate opening of the β barrel in fatty acid binding proteins.Crystallographic home-source X-ray data for the atomic-resolution experimental phasing of the Shank3 SH3 domain structure from pseudomerohedrally twinned crystalsThe N-terminal Domain of Unknown Function (DUF959) in Collagen XVIII is Intrinsically Disordered and Highly O-glycosylatedStructure of monomeric full-length ARC sheds light on molecular flexibility, protein interactions, and functional modalitiesMolecular structure and function of myelin protein P0 in membrane stackingFlexible Players within the Sheaths: The Intrinsically Disordered Proteins of Myelin in Health and DiseaseStability and flexibility of full-length human oligodendrocytic QKI6Structural properties and role of the endocannabinoid lipases ABHD6 and ABHD12 in lipid signalling and diseaseIonic strength and calcium regulate membrane interactions of myelin basic protein and the cytoplasmic domain of myelin protein zeroCryo-EM, X-ray diffraction, and atomistic simulations reveal determinants for the formation of a supramolecular myelin-like proteolipid latticeHigh-affinity heterotetramer formation between the large myelin-associated glycoprotein and the dynein light chain DYNLL1Shanks - multidomain molecular scaffolds of the postsynaptic densityNeuropathy-related mutations alter the membrane binding properties of the human myelin protein P0 cytoplasmic tailSub-Atomic Resolution Crystal Structures Reveal Conserved Geometric Outliers at Functional SitesA Quasielastic Neutron Scattering Investigation on the Molecular Self-Dynamics of Human Myelin Protein P2Structure of the ALS Mutation Target Annexin A11 Reveals a Stabilising N-Terminal Segment
P50
Q27646938-55C451AA-841F-485D-8FC7-993E27D7BA19Q27649039-AE0955B8-CAC0-494D-B646-E1B551ECD861Q27655328-9D373503-E6C6-419A-99B9-6561D40760D3Q30396999-6CDCE27E-C81F-4E1B-9F14-93A407F6748CQ30402056-51323E11-F72D-4D1C-93FF-8192CDB5F503Q36265055-7F12736B-4A68-4BE0-9E62-EF48D22EBC18Q38598658-BE0260BD-EEC3-4A53-8D7A-71EDAF08F46CQ38710618-7300853A-6F80-4556-A844-64F3CC9C195BQ39017674-82DA5A49-C13B-4347-8EB5-B2A624608C89Q40974166-E5F68045-1E76-4B06-963D-73008164637DQ41140458-34817DD9-2CEA-456D-A6E8-40859999C98AQ41827381-D4986674-289B-4CD7-8377-C0001A3E1FA8Q47190201-77A0CDEB-C144-41E9-B28A-7832C9B7E0C5Q47222450-9C5E25A7-60DF-4690-B8B9-6E5A691BE662Q48364173-5F828DEA-2D2C-4451-993F-1882439AFBDFQ48396538-0CEE469D-074A-4699-B9F9-912C18E2696BQ51165429-7A1DF50E-589B-40A3-B7BA-4AB7DD6A231FQ52374409-92EB52BF-7537-473F-B3ED-1CA5264FA646Q55424502-8875782E-E9C5-44CB-A5AD-C44592219A9BQ57191967-39F6DD2A-267A-46B4-83E8-7495A12B1C54Q57455815-FD22B9EC-1A85-41B0-BDD4-7880723634B8Q59356383-849E03A5-4A44-4CBC-939C-1D73043F5C36Q61444756-42C7AD0A-8A67-4AC6-8A02-D385098DABF3Q89835013-E0CCC134-597D-43EF-9BA8-1BA812BCE3CCQ90236096-14162579-B5FC-4BE5-9C5F-46F5224B9708Q90626393-D834CA32-CC9F-4D23-BA25-C6CF7261663DQ91517629-B135AEEE-9313-4CA4-8CC1-EBC3642AC1D5Q91707398-C24F7C69-89C3-462E-BB32-2D0521E3FE67Q91810889-7FBED2D2-A18B-4533-A3B1-3B215674C81CQ92230865-3BB1A88F-C72B-4C60-9526-1483962343AFQ92584703-D0E4238F-2503-48E9-81F7-1B53BC8D3E4DQ92825449-0D965C67-4608-42E9-A487-3154071504D0Q93098481-0425C571-D71F-4CA4-B260-AB02C4A0B969Q94449157-FABF274C-B352-49E2-8128-48A8C5FEF61B
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Petri Kursula
@ast
Petri Kursula
@en
Petri Kursula
@es
Petri Kursula
@nl
type
label
Petri Kursula
@ast
Petri Kursula
@en
Petri Kursula
@es
Petri Kursula
@nl
prefLabel
Petri Kursula
@ast
Petri Kursula
@en
Petri Kursula
@es
Petri Kursula
@nl
P106
P1153
55893790600
P31
P496
0000-0001-8529-3751