about
Structure of a class C GPCR metabotropic glutamate receptor 1 bound to an allosteric modulatorInverted topologies in membrane proteins: a mini-reviewDiscoidin domain receptor 1 (DDR1) kinase as target for structure-based drug discoveryReconstruction of SAXS Profiles from Protein StructuresExpanding the utility of NMR restraints with paramagnetic compounds: background and practical aspectsComputational methods in drug discoveryBCL::Fold--de novo prediction of complex and large protein topologies by assembly of secondary structure elementsRecognition dynamics up to microseconds revealed from an RDC-derived ubiquitin ensemble in solutionStructure of KCNE1 and Implications for How It Modulates the KCNQ1 Potassium Channel † ‡A Correspondence Between Solution-State Dynamics of an Individual Protein and the Sequence and Conformational Diversity of its FamilyComputational design of an endo-1,4- -xylanase ligand binding siteExploring Symmetry as an Avenue to the Computational Design of Large Protein DomainsPotential of fragment recombination for rational design of proteinsHuman Rotavirus VP6-Specific Antibodies Mediate Intracellular Neutralization by Binding to a Quaternary Structure in the Transcriptional PoreHuman antibodies that neutralize respiratory droplet transmissible H5N1 influenza virusesA Conserved Phenylalanine as a Relay between the 5 Helix and the GDP Binding Region of Heterotrimeric Gi Protein SubunitBCL::Conf: small molecule conformational sampling using a knowledge based rotamer libraryTip60 is a cell-type-specific transcriptional regulatorFree modeling with Rosetta in CASP6Assessment and challenges of ligand docking into comparative models of G-protein coupled receptorsOctarellin VI: using rosetta to design a putative artificial (β/α)8 proteinAnalysis of nidogen-1/laminin γ1 interaction by cross-linking, mass spectrometry, and computational modeling reveals multiple binding modesIntegrating solid-state NMR and computational modeling to investigate the structure and dynamics of membrane-associated ghrelinThe Kir channel immunoglobulin domain is essential for Kir1.1 (ROMK) thermodynamic stability, trafficking and gatingRosettaScripts: a scripting language interface to the Rosetta macromolecular modeling suiteComputational modeling of laminin N-terminal domains using sparse distance constraints from disulfide bonds and chemical cross-linkingPROSHIFT: Protein chemical shift prediction using artificial neural networksROSETTA3: an object-oriented software suite for the simulation and design of macromoleculesA unified hydrophobicity scale for multispan membrane proteins.Pyruvate formate-lyase interacts directly with the formate channel FocA to regulate formate translocation.Rosetta predictions in CASP5: successes, failures, and prospects for complete automation.The fumarate sensor DcuS: progress in rapid protein fold elucidation by combining protein structure prediction methods with NMR spectroscopy.CASP6 assessment of contact prediction.Iterative Molecular Dynamics-Rosetta Protein Structure Refinement Protocol to Improve Model Quality.BCL::Fold--protein topology determination from limited NMR restraints.Guanylate Cyclase-Activating Protein-2 Undergoes Structural Changes upon Binding to Detergent Micelles and Bicelles.De novo high-resolution protein structure determination from sparse spin-labeling EPR data.Self-consistent residual dipolar coupling based model-free analysis for the robust determination of nanosecond to microsecond protein dynamics.CASP10-BCL::Fold efficiently samples topologies of large proteins.BCL::MP-fold: Membrane protein structure prediction guided by EPR restraints
P50
Q24338769-F88F0A60-020B-42E8-937D-0796C59AFEBAQ26825305-4A940E36-C4F3-48C6-8EA6-5D498B0EE42CQ26853215-E932C637-8DBF-40DF-86D2-AABE7CA0A779Q26853588-6856AA34-ECE0-4F4A-97B8-0BD4CBD9B51EQ26992268-C700A0A3-8EDA-4F65-91D8-FED7D4A33974Q26997089-B75010FA-4402-4951-881C-4489B62EA7F4Q27336738-49B6B5E0-7FBC-4D73-B7CB-DD1EA9833FF3Q27650851-25CCF87E-9B88-411A-A4A5-629A162EE12EQ27651069-10DC3F5A-0E21-4234-BFCD-EBA77BEF6FD6Q27655680-483250BB-6308-43D4-8792-E6D4B95E59DDQ27667054-25EF2EA1-A528-4436-B96C-1FE7F4029033Q27674759-03180B9D-955F-481C-860E-72C71982DA46Q27677238-1C6F5ECF-0E76-428C-B8E3-2BAFF9970EE8Q27678128-2FD6B2CE-627F-42FB-8215-EBED19686FCDQ27679859-CE74BA52-334C-4947-A530-E9CBC50D6A5AQ27684726-A110C9D2-F2EB-4BE1-989D-77AD66A287D9Q27902310-FE96B477-B5EB-4E82-82F2-1943D60FEE5FQ28207450-3A6FC95E-F0CB-455A-B5BC-84FBFD62B1FEQ28274213-54810025-320A-4B5E-B7AD-075AC052F97BQ28534461-129AF9D6-6A9A-40A0-8B6C-8F749173ABF2Q28535412-2D97D507-A86A-4CD8-B78B-6027CD28599AQ28544860-5C0C4486-41B9-4873-9AC9-3573190DF60FQ28544962-FF0C78DE-9992-43C1-A09D-2E7910AEA697Q28635868-2208F04A-B913-406D-BD26-3C9DAAEA8F52Q28743250-C6C6CD95-6495-4991-AF0B-1563E7B3F7FFQ28821078-F7FF24BE-F502-4701-88E6-7711F349A506Q28843111-14D75B22-BF2A-424B-BB78-75CCF58491B5Q28843111-6D2FE270-CEB2-4F15-8FCA-A93826CF50D5Q28914720-ED868C61-BA9B-414A-8295-77BD6E396D56Q30157444-F91456E7-DA65-425E-96F5-B12BC267BA4AQ30317417-8A1C388E-E0CF-4D88-AEC6-9D31EFA871C4Q30336227-9BC662C8-9607-4DB3-A658-6A29049A20B4Q30350404-FA6A69D6-BE57-462C-9D07-F783E0071A92Q30351480-02B71542-0F62-4B6B-A340-0752F3FFFFB6Q30352938-444B4F80-11E2-4C3D-84B3-FD1D8C2C91F4Q30354487-0464D835-2E88-4B27-8DD5-8050FF061463Q30364983-DED24D0A-5A58-4603-B576-29963573BC81Q30367770-B4AF0FAA-DCFF-4698-879F-42CCA647D8A0Q30369740-23EAF704-ADE9-4B8D-91F4-7FD7058A7C89Q30370695-D26A4FD7-5101-42FB-9AEA-1039C4EB2928
P50
description
Duits biochemicus
@nl
German biochemist
@en
bithchemiceoir Gearmánach
@ga
deutscher Biochemiker
@de
professor académico alemão
@pt
tysk professor
@da
tysk professor
@sv
name
Jens Meiler
@ast
Jens Meiler
@br
Jens Meiler
@ca
Jens Meiler
@co
Jens Meiler
@da
Jens Meiler
@de
Jens Meiler
@en
Jens Meiler
@es
Jens Meiler
@fr
Jens Meiler
@id
type
label
Jens Meiler
@ast
Jens Meiler
@br
Jens Meiler
@ca
Jens Meiler
@co
Jens Meiler
@da
Jens Meiler
@de
Jens Meiler
@en
Jens Meiler
@es
Jens Meiler
@fr
Jens Meiler
@id
prefLabel
Jens Meiler
@ast
Jens Meiler
@br
Jens Meiler
@ca
Jens Meiler
@co
Jens Meiler
@da
Jens Meiler
@de
Jens Meiler
@en
Jens Meiler
@es
Jens Meiler
@fr
Jens Meiler
@id
P214
P227
P1412
P1559
Jens Meiler
@de
P19
P2002
P21
P213
0000 0000 1594 0119
P214
P227
P2456
P31
P3411
P496
0000-0001-8945-193X
P569
1974-08-31T00:00:00Z
P734
P735
P7859
viaf-23051474