about
In silico screening of mutational effects on enzyme-proteic inhibitor affinity: a docking-based approachProtein and Signaling Networks in Vertebrate Photoreceptor CellsA calcium-relay mechanism in vertebrate phototransductionElectrostatic contributions to the kinetics and thermodynamics of protein assemblyNetwork and atomistic simulations unveil the structural determinants of mutations linked to retinal diseases.S-Glutathionylation at Cys328 and Cys542 impairs STAT3 phosphorylation.Allosteric communication pathways routed by Ca(2+)/Mg(2+) exchange in GCAP1 selectively switch target regulation modes.Modeling the time evolution of the nanoparticle-protein corona in a body fluid.Fast predictions of thermodynamics and kinetics of protein-protein recognition from structures: from molecular design to systems biology.Involvement of the calcium sensor GCAP1 in hereditary cone dystrophies.Detecting single photons: a supramolecular matter?A physiological role for the supramolecular organization of rhodopsin and transducin in rod photoreceptors.Biophysical characterization of antimicrobial peptides activity: from in vitro to ex vivo techniques.Fingerprints of Calcium-Binding Protein Conformational Dynamics Monitored by Surface Plasmon Resonance.Homodimerization of neurotensin 1 receptor involves helices 1, 2, and 4: insights from quaternary structure predictions and dimerization free energy estimations.Biochemical and biophysical characterization of a plant calmodulin: Role of the N- and C-lobes in calcium binding, conformational change, and target interaction.Regulatory function of the C-terminal segment of guanylate cyclase-activating protein 2.Transient complexes between dark rhodopsin and transducin: circumstantial evidence or physiological necessity?The dimerization domain in outer segment guanylate cyclase is a Ca²⁺-sensitive control switch module.Systems biochemistry approaches to vertebrate phototransduction: towards a molecular understanding of disease.Exploring the rate-limiting steps in visual phototransduction recovery by bottom-up kinetic modeling.Calcium binding, structural stability and guanylate cyclase activation in GCAP1 variants associated with human cone dystrophy.Network-level analysis of light adaptation in rod cells under normal and altered conditions.Nanodevice-induced conformational and functional changes in a prototypical calcium sensor protein.Involvement of the recoverin C-terminal segment in recognition of the target enzyme rhodopsin kinase.Rhodopsin transient complexes investigated by systems biology approaches.Quantitative structure-activity relationship analysis of canonical inhibitors of serine proteases.A comprehensive model of the phototransduction cascade in mouse rod cells.Correlation between the molecular effects of mutations at the dimer interface of alanine-glyoxylate aminotransferase leading to primary hyperoxaluria type I and the cellular response to vitamin B6.CaF2 nanoparticles as surface carriers of GCAP1, a calcium sensor protein involved in retinal dystrophies.Luminescent and paramagnetic properties of nanoparticles shed light on their interactions with proteins.Mathematical modeling of the protein corona: implications for nanoparticulate delivery systems.Dysfunction of cGMP signalling in photoreceptors by a macular dystrophy-related mutation in the calcium sensor GCAP1.Divalent cations modulate membrane binding and pore formation of a potent antibiotic peptide analog of alamethicin.Quantitative detection of conformational transitions in a calcium sensor protein by surface plasmon resonance.Intermolecular disulfide bond influences unphosphorylated STAT3 dimerization and function.Dark and photoactivated rhodopsin share common binding modes to transducin.Mesoscopic Monte Carlo simulations of stochastic encounters between photoactivated rhodopsin and transducin in disc membranes.Probing fragment complementation by rigid-body docking: in silico reconstitution of calbindin D9k.Structural plasticity of calmodulin on the surface of CaF2nanoparticles preserves its biological function
P50
Q24678312-FA682B16-9B2F-4E0D-9B70-0717424BE431Q26774837-99617F00-0E8E-4D5E-9DAB-9AE196603F5FQ28534134-35ADDEC7-BF61-4301-B78C-14E9AA2F569AQ30349825-BE3AC27A-E5C2-478D-A43B-1B14F585EA18Q30353379-C83BCC14-E2F4-4826-B4EB-9B2729763749Q30363714-D4DCBE15-E7AC-43C6-8C58-EDFEFF943B5EQ30822493-B56D1DBF-846E-480C-B352-0C1A6906D2CCQ33598483-5F60FC84-80D8-44A3-B766-74DE4E2C108AQ37460889-BD4CCF51-7CAC-4680-9C1D-3A65115C0AF0Q37724771-751102DC-2063-417C-A634-CEE35A2079F2Q38062330-03803EF7-EABE-416E-B567-3EE8990F86D6Q38107691-0741EC79-D293-4BE5-B147-9746885FCBA5Q38150884-0D2D5D0C-8DD2-4D8F-B44E-320A4BCDC941Q38886800-1DD7E657-A136-4595-A481-B98763C1AE2CQ40070836-22BE5FE5-DE54-4336-BA3D-278398C395BDQ40167409-505FE661-E69E-4FA4-B7CB-0755BE434EA3Q40910311-1F2A0982-B395-4B0B-8A3D-1F0E1F785974Q42282230-D68684FA-A872-4175-B48F-61A2C9A74B95Q42440748-DB61B570-740F-42B5-9E26-396AFC0D466CQ42878380-2C8F4A1C-E5A5-4EE4-8872-D01FEC08C7E2Q43063154-7704DF55-E28A-493C-B270-C99AECA5C1BBQ43137451-71DEDF2D-B402-4896-9873-40EB8B3EA73CQ43276227-6A699665-F1CF-4AFA-B417-7C8ACD3282A7Q44018755-A4A78E0D-58A9-49E4-AE4F-5D6313FA07AEQ44081193-4B4A9846-122C-45F6-9357-04407652A924Q46770471-EA97868C-1D0A-47A4-AACC-4B9800F5C641Q46793452-528A49C7-B53A-47EB-817F-80B2CC47CDF4Q46913447-1AE77E55-E96D-4136-8986-B6487DCE0C9EQ47433097-C5B71E68-0B4C-4DF1-B8D6-51043F923369Q47980504-9F190FC3-0444-4D90-B87D-ADCA88B7CFB2Q50313118-A142FB83-5C0B-41FF-A5D0-2EEEC9CF3D21Q51071644-6F294567-241B-4E7E-928F-FFA446730F90Q51234304-0C94F733-0552-4150-B2F5-4E9F689A86C1Q51534840-9A126D1C-2E59-4E61-BE8A-1B02D2CBB02CQ51554922-036F02A8-CABF-4916-BF7B-1F9DE8DC6556Q51597811-3D9B3708-EDDF-4EAC-BF90-582FBB4417C8Q51622552-11D6008B-F95A-412B-B277-47F362CEEF0EQ51890850-390F3C21-5800-4257-8FEB-46B194E8999AQ51963832-C480F2C8-0492-46E4-9EF0-89BDEE4385E6Q53404329-3900C678-5186-4CE2-B4E8-0ED73BF85719
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Daniele Dell'Orco
@ast
Daniele Dell'Orco
@en
Daniele Dell'Orco
@es
Daniele Dell'Orco
@nl
type
label
Daniele Dell'Orco
@ast
Daniele Dell'Orco
@en
Daniele Dell'Orco
@es
Daniele Dell'Orco
@nl
prefLabel
Daniele Dell'Orco
@ast
Daniele Dell'Orco
@en
Daniele Dell'Orco
@es
Daniele Dell'Orco
@nl
P214
P244
P106
P214
P244
no2013089613
P2456
P31
P496
0000-0002-3724-3044
P7859
lccn-no2013089613