about
9-cis-13,14-Dihydroretinoic Acid Is an Endogenous Retinoid Acting as RXR Ligand in MiceCrystal structure of the ligand-binding domain of the ultraspiracle protein USP, the ortholog of retinoid X receptors in insectsCrystal structures of the vitamin D receptor complexed to superagonist 20-epi ligandsStructural adaptability in the ligand-binding pocket of the ecdysone hormone receptorAdaptability of the Vitamin D nuclear receptor to the synthetic ligand Gemini: remodelling the LBP with one side chain rotationCrystal structure of the vitamin D nuclear receptor ligand binding domain in complex with a locked side chain analog of calcitriolStructure-based design of a superagonist ligand for the vitamin D nuclear receptorCommunication between the ERRalpha homodimer interface and the PGC-1alpha binding surface via the helix 8-9 loopSuperagonistic fluorinated vitamin D3 analogs stabilize helix 12 of the vitamin D receptorStructural and functional insights into the ligand-binding domain of a nonduplicated retinoid X nuclear receptor from the invertebrate chordate amphioxusSilicon analogues of the RXR-selective retinoid agonist SR11237 (BMS649): chemistry and biologyStructure-function relationships and crystal structures of the vitamin D receptor bound 2 alpha-methyl-(20S,23S)- and 2 alpha-methyl-(20S,23R)-epoxymethano-1 alpha,25-dihydroxyvitamin D3Crystal structure of hereditary vitamin D-resistant rickets--associated mutant H305Q of vitamin D nuclear receptor bound to its natural ligandThe “Phantom Effect” of the Rexinoid LG100754: Structural and Functional InsightsSynthesis, structure, and biological activity of des-side chain analogues of 1α,25-dihydroxyvitamin D3 with substituents at C18Design, synthesis, evaluation, and structure of vitamin D analogues with furan side chainsStructure–function study of gemini derivatives with two different side chains at C-20, Gemini-0072 and Gemini-0097Crystal structure of a vitamin D3 analog, ZK203278, showing dissociated profileStructural basis for a molecular allosteric control mechanism of cofactor binding to nuclear receptorsSynthetically accessible non-secosteroidal hybrid molecules combining vitamin D receptor agonism and histone deacetylase inhibitionStructural basis for the accommodation of bis- and tris-aromatic derivatives in vitamin D nuclear receptorDiastereotopic and deuterium effects in geminiStructural insights into the molecular mechanism of vitamin D receptor activation by lithocholic acid involving a new mode of ligand recognitionRestricted diversity of antigen binding residues of antibodies revealed by computational alanine scanning of 227 antibody-antigen complexesA vitamin D receptor selectively activated by gemini analogs reveals ligand dependent and independent effectsStructural analysis and biological activities of BXL0124, a gemini analog of vitamin DCrystal structure of the RAR-gamma ligand-binding domain bound to all-trans retinoic acidStructure of the full human RXR/VDR nuclear receptor heterodimer complex with its DR3 target DNA1α,25(OH)2-3-epi-vitamin D3, a natural physiological metabolite of vitamin D3: its synthesis, biological activity and crystal structure with its receptorFunctional and structural characterization of the insertion region in the ligand binding domain of the vitamin D nuclear receptor.Detection of nucleic acid-nuclear hormone receptor complexes with mass spectrometry.Iron release from transferrin by pyoverdin and elastase from Pseudomonas aeruginosa.The use of fluorescent intrabodies to detect endogenous gankyrin in living cancer cells.Phosphorylation of the retinoic acid receptor alpha induces a mechanical allosteric regulation and changes in internal dynamics.Structural basis of natural promoter recognition by the retinoid X nuclear receptor.Retinoic acid receptors recognize the mouse genome through binding elements with diverse spacing and topology.Allosteric Regulation in the Ligand Binding Domain of Retinoic Acid Receptorγ.Solution Structures of PPARγ2/RXRα Complexes.Ligand binding domain of vitamin D receptors.Solution Behavior of the Intrinsically Disordered N-Terminal Domain of Retinoid X Receptor α in the Context of the Full-Length Protein.
P50
Q21092399-44135AD9-AED1-4102-A35D-22FEB3CF94E3Q27627719-0861BFBA-B73E-4279-A845-F6B55A67B14CQ27631684-B56645A7-4CE0-4705-885A-2315A370695AQ27642470-84C0C1F5-848A-4530-8859-1F2575547482Q27643514-B9721300-8B47-45AC-9BE6-8FFAF1542332Q27644006-6C2D8933-8140-4D1C-BCF7-F31C50ACD224Q27650352-ED5224C1-A6AB-4F88-AE18-81EF163EA136Q27650466-453A2B78-F394-4E38-80EE-B8B39A1A3950Q27652603-801B009B-29A6-4883-A39D-B1D76157539DQ27652780-CB048530-2EC7-4A64-97C9-140F06ECD3D0Q27655733-906DDA45-D438-4342-A33D-2CD828C2AE07Q27658937-E387FB84-E01D-40D6-B6A3-EC5AF8EB1F61Q27660639-7FBBBDD9-623A-4366-9DD9-87E5AF051517Q27666286-1A5E0F12-C9CD-451F-A151-0D556CA1A70EQ27667567-68EBAB12-552F-4C10-9167-D2CDA8840DB4Q27676147-1DEF4AAD-CB2E-454F-A47F-A2FE4DE0E6D3Q27676305-5AFDD1A6-3AEF-4E39-9AA8-ABCE29686360Q27676517-90C74B6E-7504-4A0B-8809-33FCB47AC846Q27677404-86FDB723-FEB6-439F-B502-F3B03D79E2B6Q27682028-6EC65136-BBFE-42D9-BE28-DFAFEB710B3FQ27682184-CC272818-AF3F-468A-B57D-83D0AA87FF32Q27684381-2E6ABA0D-9A86-45AD-8483-6E6319A42D3AQ27690214-1B43AE1D-48C5-4E23-9BC4-F7C3ADA3E321Q27694831-D9AB7C84-252E-4015-84A3-369C99F8C7ECQ27697661-EBCF1B2D-0435-4851-957E-64183433E703Q27728091-E3EE240C-1373-4D52-A99E-33BC80BFA9BEQ27729334-A8AE2965-91DB-44A7-BAE6-639E148E58A4Q28115652-9DB1DBB5-BB61-4F55-BADC-713EB28499C7Q28477606-A854B502-B946-4556-8F35-838B0CFCBF0AQ31944522-EAA67F98-1A8C-4BB4-B06C-C2F5EC2B22DDQ33526172-DA981138-AD80-45DD-B10F-B20F530EA7E2Q34538136-38E7BFA7-DCFD-40BD-88D2-E3481B5FBB60Q34564636-A3C2FACD-00BD-4F9B-935C-9D5FC4D8FFD4Q34699661-80997662-4D1C-4B62-BEE6-6AA75F5869FCQ35040858-A32F8E0C-3DD2-49FC-87E5-F2550A1AA932Q36122250-C82E8C3C-65C8-467D-BC8C-7FD571716884Q36261319-95D13A5D-5CDC-4090-9391-92B48E471D28Q36516065-1F0E1D3F-8E4D-49DD-8E67-DA8EBC10120BQ36539563-56B12C62-BC00-4684-AB54-75AFFE4813D1Q37142494-5FD63635-D133-4CDD-9442-F95A5BA184AA
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Natacha Rochel
@ast
Natacha Rochel
@en
Natacha Rochel
@es
Natacha Rochel
@fr
Natacha Rochel
@nl
Natacha Rochel
@sl
type
label
Natacha Rochel
@ast
Natacha Rochel
@en
Natacha Rochel
@es
Natacha Rochel
@fr
Natacha Rochel
@nl
Natacha Rochel
@sl
prefLabel
Natacha Rochel
@ast
Natacha Rochel
@en
Natacha Rochel
@es
Natacha Rochel
@fr
Natacha Rochel
@nl
Natacha Rochel
@sl
P1053
A-5718-2016
P106
P21
P31
P3829
P496
0000-0002-3573-5889
P569
2000-01-01T00:00:00Z