A mutational analysis of the binding of two different proteins to the same antibody.
about
High affinity antigen recognition of the dual specific variants of herceptin is entropy-driven in spite of structural plasticityAn isoleucine-based allosteric switch controls affinity and shape shifting in integrin CD11b A-domainAsymmetric recognition of HIV-1 Envelope trimer by V1V2 loop-targeting antibodies.Progressive dry-core-wet-rim hydration trend in a nested-ring topology of protein binding interfaces.Contribution of light chain residues to high affinity binding in an HIV-1 antibody explored by combinatorial scanning mutagenesisBalanced secretion of anti-CEA × anti-CD3 diabody chains using the 2A self-cleaving peptide maximizes diabody assembly and tumor-specific cytotoxicity.Origins of specificity and affinity in antibody-protein interactionsThermodynamic analyses reveal role of water release in epitope recognition by a monoclonal antibody against the human guanylyl cyclase C receptor.High-Throughput Ligand Discovery Reveals a Sitewise Gradient of Diversity in Broadly Evolved Hydrophilic Fibronectin DomainsTwo functional states of the CD11b A-domain: correlations with key features of two Mn2+-complexed crystal structures.Quantitative evaluation of the chicken lysozyme epitope in the HyHEL-10 Fab complex: free energies and kinetics.Kinetic epitope mapping of the chicken lysozyme.HyHEL-10 Fab complex: delineation of docking trajectories.Energetic analysis of an antigen/antibody interface: alanine scanning mutagenesis and double mutant cycles on the HyHEL-10/lysozyme interaction.Targeting platelet-leukocyte interactions: identification of the integrin Mac-1 binding site for the platelet counter receptor glycoprotein Ibalpha.Mapping the energy of superantigen Staphylococcus enterotoxin C3 recognition of an alpha/beta T cell receptor using alanine scanning mutagenesis.A mutational analysis of the binding of staphylococcal enterotoxins B and C3 to the T cell receptor beta chain and major histocompatibility complex class II.Characterization of anti-anti-idiotypic antibodies that bind antigen and an anti-idiotype.Modeling and fitting protein-protein complexes to predict change of binding energyDiscovery of peptide inhibitors targeting human programmed death 1 (PD-1) receptorHow do two unrelated antibodies, HyHEL-10 and F9.13.7, recognize the same epitope of hen egg-white lysozyme?Kinetic and affinity predictions of a protein-protein interaction using multivariate experimental design.Camel single-domain antibody inhibits enzyme by mimicking carbohydrate substrate.Analysis of the neutralization breadth of the anti-V3 antibody F425-B4e8 and re-assessment of its epitope fine specificity by scanning mutagenesis.Alteration of amino acid residues at the L-chain N-terminus and in complementarity-determining region 3 increases affinity of a recombinant F(ab) for the human N blood group antigen.Volume-based solvation models out-perform area-based models in combined studies of wild-type and mutated protein-protein interfaces.A new scoring function for protein-protein docking that identifies native structures with unprecedented accuracy.Directed mutagenesis identifies amino acid residues involved in elongation factor Tu binding to yeast Phe-tRNAPhe.Improving the species cross-reactivity of an antibody using computational design.Functional fine-mapping and molecular modeling of a conserved loop epitope of the measles virus hemagglutinin protein.Real-time kinetics of the interaction between the two subunits, Escherichia coli thioredoxin and gene 5 protein of phage T7 DNA polymerase.Thermodynamic dissection of a low affinity protein-protein interface involved in human immunodeficiency virus assembly.Dissecting cooperative and additive binding energetics in the affinity maturation pathway of a protein-protein interface.Computationally accessible method for estimating free energy changes resulting from site-specific mutations of biomolecules: systematic model building and structural/hydropathic analysis of deoxy and oxy hemoglobins.Structure-function studies of T-cell receptor-superantigen interactions.Analysis of the human factor VIII A2 inhibitor epitope by alanine scanning mutagenesis.Are hot-spots occluded from water?Mutational analysis of thrombopoietin for identification of receptor and neutralizing antibody sites.Anatomy of an antibody molecule: structure, kinetics, thermodynamics and mutational studies of the antilysozyme antibody D1.3.Interaction of phosphorylated tryptophan hydroxylase with 14-3-3 proteins.Grafting of protein-protein interaction epitope.
P2860
Q27349722-59678E92-7B67-4995-850E-987761037687Q27627500-B20DA43D-4B30-4421-ABE8-560BD7C504D6Q30352300-0C201162-C8BE-4B17-B2F6-EF91418AB09EQ31053281-E701D1F1-F329-4C2B-9F1C-685DF4457A22Q33592517-4E33D66A-F0B6-47C2-990E-6D1E45D889B5Q33600768-1446F1BB-0BC1-48D3-BF49-2FF62C3ABF31Q33854235-D8856677-17AD-406C-852C-872AA9E732C1Q33877867-59B3D5FD-3748-42AD-B111-E348A04C2023Q35780298-5FCA4760-D066-4817-B048-B8EF54551F21Q36255960-36108B20-390C-4EA4-AB97-ED5A0E3196D3Q36281312-3400F04D-60E3-4629-96F3-A7A49F5EE4B8Q36281315-C11584A2-2D28-480F-8BBE-687361F3AA26Q36281533-E6E40C72-1764-4B23-B3BF-2CB1C4D0C269Q36371735-1A6FB804-4189-486F-A57A-4C7E93082EB3Q36375976-61B5D959-5A32-4CE5-9203-6BE95E7D5CAFQ36400491-A6D3801A-883E-4C09-8A19-9E5DCA8BC033Q36555675-6E052FBA-F5FF-46B2-B406-292CE653770EQ36898375-F6A9A847-4752-4C22-97B8-D3708F5EA7FEQ37662169-08372F4D-DA2B-44B6-A17F-66E577A7FC5CQ38270409-FBFD30A4-6ED9-4C7A-9106-CA2B61131F94Q38288616-A85BB72E-B319-4043-A4A4-3FEC1CF289B9Q38333730-63563DF6-1923-4A98-B19B-896D7CE6F669Q40147993-AC9459F5-823E-4302-A849-409DC882A5C4Q40531674-348A84DA-D5C4-4BB0-880F-BCC5D876ED39Q41188969-4B99E2EC-340E-4BAC-817E-C81ED0C88947Q41711426-AA37B08A-AC51-423D-BEB7-103E5C19742AQ43050009-34812A13-3B25-4F03-90F4-BF742A2BE666Q43072913-3A7373A9-8C9C-4EB8-9EC5-892A7984FDB0Q44373791-56467842-F6B4-482B-B9D8-8333BCDB46CFQ44387477-98A9E1C4-33AE-458D-BF5A-A0B6C8093FCAQ44449795-A12DA301-CAD6-4CAE-9222-26A1BC1CDC69Q44599850-B823A409-B70F-485A-A453-3AD0A14AFDB8Q44878988-E4718047-AE0D-4358-BA70-2F981FA3CE70Q45191193-7BF7EA23-9EA4-4B52-89A9-ABBD69F2D1A9Q45884403-7937116C-FD05-4693-9483-B5C997B7546BQ45926975-9DF7CBE9-5838-452C-9667-1CBFEA1885F7Q46018556-4B1B77B6-7B4C-4B01-943C-5D07A1E42CC0Q47700146-C24A7B32-FC57-4841-A216-C1E5EC67B17AQ48617437-E1A0D428-050F-4D18-B878-042FC5F2164BQ52079003-7E13536B-FD77-4DBE-B30A-373CE8EDE071
P2860
A mutational analysis of the binding of two different proteins to the same antibody.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
A mutational analysis of the binding of two different proteins to the same antibody.
@en
type
label
A mutational analysis of the binding of two different proteins to the same antibody.
@en
prefLabel
A mutational analysis of the binding of two different proteins to the same antibody.
@en
P2093
P356
P1433
P1476
A mutational analysis of the binding of two different proteins to the same antibody.
@en
P2093
Dall'Acqua W
Eisenstein E
Goldman ER
Mariuzza RA
P304
P356
10.1021/BI960819I
P407
P577
1996-07-01T00:00:00Z