about
Structural basis for molecular recognition of folic acid by folate receptorsIon channels gated by acetylcholine and serotonin: structures, biology, and drug discoveryAbscisic acid perception and signaling: structural mechanisms and applicationsStructure and mechanism for recognition of peptide hormones by Class B G-protein-coupled receptorsStructural basis of JAZ repression of MYC transcription factors in jasmonate signalling.Crystal structure of rhodopsin bound to arrestin by femtosecond X-ray laserIdentification of SRC3/AIB1 as a Preferred Coactivator for Hormone-activated Androgen ReceptorIdentification and mechanism of ABA receptor antagonismMolecular Mimicry Regulates ABA Signaling by SnRK2 Kinases and PP2C PhosphatasesCrystal structures of two phytohormone signal-transducing α/β hydrolases: karrikin-signaling KAI2 and strigolactone-signaling DWARF14Structural basis for basal activity and autoactivation of abscisic acid (ABA) signaling SnRK2 kinasesStructural Conservation of Ligand Binding Reveals a Bile Acid-like Signaling Pathway in NematodesStructural Basis for Molecular Recognition at Serotonin ReceptorsAn ABA-mimicking ligand that reduces water loss and promotes drought resistance in plantsStructure of a PLS-class Pentatricopeptide Repeat Protein Provides Insights into Mechanism of RNA RecognitionThe Crystal Structure of the Orphan Nuclear Receptor NR2E3/PNR Ligand Binding Domain Reveals a Dimeric Auto-Repressed ConformationStructure and function of Norrin in assembly and activation of a Frizzled 4-Lrp5/6 complexStructural insights into gene repression by the orphan nuclear receptor SHPStructures and mechanism for the design of highly potent glucocorticoidsStructural basis for RNA recognition by a dimeric PPR-protein complexUse of a genetically introduced cross-linker to identify interaction sites of acidic activators within native transcription factor IID and SAGA.A highly conserved ATPase protein as a mediator between acidic activation domains and the TATA-binding protein.The potent Cdc7-Dbf4 (DDK) kinase inhibitor XL413 has limited activity in many cancer cell lines and discovery of potential new DDK inhibitor scaffoldsMutational hypersensitivity of a gene regulatory protein: Saccharomyces cerevisiae Gal80pMolecular assembly of rhodopsin with G protein-coupled receptor kinases.A gate-latch-lock mechanism for hormone signalling by abscisic acid receptors.A D53 repression motif induces oligomerization of TOPLESS corepressors and promotes assembly of a corepressor-nucleosome complex.Rearrangement of a polar core provides a conserved mechanism for constitutive activation of class B G protein-coupled receptorsThirsty plants and beyond: structural mechanisms of abscisic acid perception and signaling.Abscisic acid signaling: thermal stability shift assays as tool to analyze hormone perception and signal transduction.Generation and characterization of a human nanobody against VEGFR-2.Gal80-Gal80 interaction on adjacent Gal4p binding sites is required for complete GAL gene repression.H2O2 inhibits ABA-signaling protein phosphatase HAB1.Structural and functional study of D-glucuronyl C5-epimeraseStructural basis for corepressor assembly by the orphan nuclear receptor TLX.The cryo-electron microscopy structure of γ-Secretase: towards complex assembly, substrate recognition and a catalytic mechanism.New chemical crosslinking methods for the identification of transient protein-protein interactions with multiprotein complexes.X-ray laser diffraction for structure determination of the rhodopsin-arrestin complexCrystallization scale purification of α7 nicotinic acetylcholine receptor from mammalian cells using a BacMam expression systemHigh yield and efficient expression and purification of the human 5-HT3A receptor
P50
Q24307935-3CB11C35-E79C-406E-AB01-B470BE740E59Q26799689-61BCBAEE-EEFC-416B-B047-6E49851B9F4BQ26822490-83552257-2C6D-407A-8860-0A2D99993F02Q26851381-BDE9B564-847C-4A7E-89FC-D9D8DD9A0AE2Q27316091-E692C033-E522-4212-A81A-0774A84B7BE5Q27644398-94C8D5A6-AF4C-436E-8128-96018359642EQ27659041-26C9EE84-29A2-4258-A3B2-9AA69A00F433Q27664127-B6F76AF9-9D30-499B-843A-71C83D16449BQ27675794-CAAA4C1E-BB18-41AF-9605-A8950B57F86EQ27676131-A06E457E-C394-4047-92E0-9382CF83A104Q27676137-63666617-306C-4CF2-8FFA-E3262EE98E7CQ27676200-D7207D8F-1D1C-4117-B452-9A653B854F5DQ27676926-5D7C4FBD-30EE-4D03-859D-479239ED75BCQ27678983-36389E0E-0B6A-4CFE-8EE3-60408126BE7FQ27679981-E06BD83B-30DB-4049-AA4A-138AAEA33E0EQ27680068-12959E59-AAFC-468D-A8AD-DE8809A5201DQ27680510-A1D28133-9830-4153-AD07-50817F6B148EQ27681139-977653F1-E70B-4EFC-B87A-FCD77E0C515FQ27683537-E897E9C7-769F-4149-8597-F466739E1B3FQ27687425-D59F3CD3-DBC0-4A9A-8B9B-9DD11501B74FQ27929763-BBF0D51F-AE18-4A98-9E2F-E9506CE16E44Q27933520-C4366160-D9AD-4520-8BB3-19C142AF8E01Q28545089-BB59DAE4-B479-47BA-8988-3D8313D4942CQ30791990-D163481A-3E58-460F-B3DE-C055C1A079E3Q33365434-91480051-E06A-45DB-927F-7636803ECC0CQ33608300-CFCD1D6B-2E84-4470-AC1C-7FF8CB70256CQ33758355-F395F119-2D79-4300-9D1F-E906457D92E7Q33806122-F16C24BB-9DBF-4A42-88DF-969C2CC163E0Q34367577-DD4BA788-AE83-4785-898B-38010204BFD1Q34462352-05683E29-E876-42E5-8BB7-C5E766729DF5Q34523277-42162BE0-E342-4765-B8DC-AA0630F0B94BQ34582719-6170D4FD-2CB0-4CF8-AC2B-ACC3C0953255Q34612030-14004857-8E17-4292-858A-6D24FB778BBAQ35103885-F2C3BE0A-19B9-4AE1-9EEA-BB65C46F378DQ35104166-8BD1E2C0-AA26-4ADC-B19F-416A48FBAE0DQ35743774-23F63A74-9E2F-4761-B91D-E3DBD86E9AD6Q35867176-BC423F1F-D688-4025-9962-E9C32410FE21Q35987346-E5EB41B7-A2A7-4173-AC15-184B6C2B0C84Q36044791-C634FA87-3F16-4043-92B0-10369AEA16F6Q36044797-D02FF71B-CAE0-4662-A823-738FE7780187
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Karsten Melcher
@ast
Karsten Melcher
@en
Karsten Melcher
@es
Karsten Melcher
@fr
Karsten Melcher
@nl
Karsten Melcher
@sl
type
label
Karsten Melcher
@ast
Karsten Melcher
@en
Karsten Melcher
@es
Karsten Melcher
@fr
Karsten Melcher
@nl
Karsten Melcher
@sl
prefLabel
Karsten Melcher
@ast
Karsten Melcher
@en
Karsten Melcher
@es
Karsten Melcher
@fr
Karsten Melcher
@nl
Karsten Melcher
@sl
P106
P21
P31
P496
0000-0002-9125-4027