about
X-ray structure of human aquaporin 2 and its implications for nephrogenic diabetes insipidus and traffickingHeterologous expression of rat epitope-tagged histamine H2 receptors in insect Sf9 cellsGPCR proteomics: mass spectrometric and functional analysis of histamine H1 receptor after baculovirus-driven and in vitro cell free expression.The proteome of red cell membranes and vesicles during storage in blood bank conditions.Comparison of the structural changes occurring during the primary phototransition of two different channelrhodopsins from Chlamydomonas algae.The area centralis in the chicken retina contains efferent target amacrine cells.Light sensitivity in a vertebrate mechanoreceptor?Internalization and desensitization of adenosine receptors.Coexpression of three opsins in cone photoreceptors of the salamander Ambystoma tigrinum.A Quantum-mechanical Study of the Binding Pocket of Proteorhodopsin: Absorption and Vibrational Spectra Modulated by Analogue Chromophores.Functional expression, targeting and Ca2+ signaling of a mouse melanopsin-eYFP fusion protein in a retinal pigment epithelium cell line.Tyrosine structural changes detected during the photoactivation of rhodopsin.Histidine tagging both allows convenient single-step purification of bovine rhodopsin and exerts ionic strength-dependent effects on its photochemistry.Large scale expression and purification of mouse melanopsin-L in the baculovirus expression system.Retinal-Based Proton Pumping in the Near Infrared.Fluoro derivatives of retinal illuminate the decisive role of the C(12)-H element in photoisomerization and rhodopsin activation.A single assay for multiple storage-sensitive red blood cell characteristics by means of infrared spectroscopy.Analysis of histamine and modeling of ligand-receptor interactions in the histamine H(1) receptor for Magic Angle Spinning NMR studies.Conformational similarities in the beta-ionone ring region of the rhodopsin chromophore in its ground state and after photoactivation to the metarhodopsin-I intermediate.Eye development and retinal differentiation in an altricial fish species, the senegalese sole (Solea senegalensis, Kaup 1858).Patterns of cell proliferation and cell death in the developing retina and optic tectum of the brown trout.Cell differentiation in the retina of an epibenthonic teleost, the Tench (Tinca tinca, Linneo 1758).Towards an interpretation of 13C chemical shifts in bathorhodopsin, a functional intermediate of a G-protein coupled receptor.Monitoring of biomass composition from microbiological sources by means of FT-IR spectroscopy.Selective interface detection: mapping binding site contacts in membrane proteins by NMR spectroscopy.Alpha-retinals as rhodopsin chromophores--preference for the 9-Z configuration and partial agonist activity.Allosteric modulators affect the internalization of human adenosine A1 receptors.Red cell concentrates of hemochromatosis patients comply with the storage guidelines for transfusion purposes.7,8-dihydro retinals outperform the native retinals in conferring photosensitivity to visual opsin.A large geometric distortion in the first photointermediate of rhodopsin, determined by double-quantum solid-state NMR.Light penetration and photoisomerization in rhodopsin studied by numerical simulations and double-quantum solid-state NMR spectroscopy.Structural Changes in an Anion Channelrhodopsin: Formation of the K and L Intermediates at 80 K.Deletion of sll1541 in Synechocystis sp. PCC 6803 allows formation of a far-red shifted holo-proteorhodopsin in vivo.Functional Expression of Gloeobacter Rhodopsin in Synechocystis sp. PCC6803.Modulation of spectral properties and pump activity of proteorhodopsins by retinal analogues.Differences in the pharmacological activation of visual opsins.Survival of red blood cells after transfusion: a comparison between red cells concentrates of different storage periods.Introduction of a rod pigment aromatic cluster does not improve the structural stability of the human green cone pigment.Coupled HOOP signature correlates with quantum yield of isorhodopsin and analog pigments.Uniform stable-isotope labeling in mammalian cells: formulation of a cost-effective culture medium.
P50
Q27683366-9E4E1E68-2947-45DB-95BC-D2A40BCD0016Q28379244-98BB5357-EE3D-4C8C-BA74-AA6007F9D732Q33313384-C83166E0-5303-41AC-9AC5-5CEB30543DEEQ33450955-119A0AA9-F31E-42BE-887F-EBE1D44F2B35Q35001159-775E70EC-40B3-4163-B354-E5F1E76BEF46Q35834789-29C399F1-78FD-4B45-A036-A31BA118FCC8Q36091060-E4E26049-7323-4713-A74B-F934B43947D7Q37119883-2C7FE8DB-A73F-46DE-A77E-8FBE4B35D4EDQ37719812-19D09EDC-A28C-46EF-82F7-8310D03D4986Q38734608-F83A6995-331D-4896-9B85-49D249BB5FE0Q39990725-978BADB4-C906-41A7-8974-D21EED74923FQ41011077-CCCCB646-43D1-447E-8006-EB6CE55E5562Q41346064-D744DC82-269F-494F-8F4D-409AD914ED4AQ42278635-EC3591DE-246B-4B54-97C7-2C47202E08B4Q42317514-EE077EC2-D6D9-4331-81D6-1F1226BD6423Q43227550-4D97E7D7-94DD-4AFC-BF2E-10FE69572D75Q43266968-3A8C5869-36EE-431D-9A2D-CAAF5A49117CQ44603539-B6E677DA-A1FF-44FA-ADC4-10A768A2E6D4Q44657906-1A11B826-4359-4262-9A0C-47439152D00EQ44818020-14AEDD0C-921F-4C24-A08F-AD1EEC143155Q45200285-7F02848E-4EC9-4893-BC16-ED3092421ACAQ46044179-0FBB37E8-45AF-473E-B308-6E085031E8C7Q46098268-18200781-E7D6-4E61-9AC4-F5BD8E10E0B1Q46170134-1A9E4D5C-C7D7-4E98-9B40-529770299698Q46444912-DC2ECA5A-7939-45D9-BEE4-C77EC445F876Q46697427-6485DD26-4687-4AD2-9259-12A62717844FQ46743327-41518DAD-F6B4-43D1-8FDD-68FCCE83F0F5Q46859874-13EE23A7-EEA7-40CC-B7ED-3DC5350445E7Q46964553-612FA093-D18A-4FF3-861B-CFD8FCDBEA8EQ47704153-0EC48D5D-5635-4DE9-BF06-1C8F94057070Q48033474-56E1C2A6-3DB1-4FD9-B5CB-0D900511071EQ48352050-63A8227F-FF8F-4DE9-A863-6CCD564C2B9FQ50145715-73C6BC07-8EEE-4C32-B1D9-BB818105247BQ50174952-09F1B0A0-DB6A-411B-8B25-4E9EA9D4053DQ50452276-0A328147-B730-4A55-94F1-9AAF69C95385Q50472173-2978FBB5-55A7-4356-B9C5-BF40ECD73B22Q50649233-5BD617B3-EE9B-419B-A178-0B10FE762E1CQ50693149-498D5350-C2AA-4F14-89F2-B115F18CE7CFQ51331470-AA30AE74-2D6C-4686-82E5-775B469367DDQ51771334-11A4D5B5-12BD-43F4-85E2-A249AA6BBBBC
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Willem Degrip
@ast
Willem Degrip
@en
Willem Degrip
@es
Willem Degrip
@nl
Willem Degrip
@sl
type
label
Willem Degrip
@ast
Willem Degrip
@en
Willem Degrip
@es
Willem Degrip
@nl
Willem Degrip
@sl
altLabel
W. Degrip
@nl
Willem J. DeGrip
@en
Willem J. de Grip
@en
prefLabel
Willem Degrip
@ast
Willem Degrip
@en
Willem Degrip
@es
Willem Degrip
@nl
Willem Degrip
@sl
P1053
L-4335-2015
P106
P21
P31
P3829
P496
0000-0001-7637-4920
P735
P7449
PRS1235779