Monoclonal antibodies used to probe acetylcholine receptor structure: localization of the main immunogenic region and detection of similarities between subunits.
about
Onconeural antigens and the paraneoplastic neurologic disorders: at the intersection of cancer, immunity, and the brainEnd-plate acetylcholine receptor: structure, mechanism, pharmacology, and diseaseMolecular mimicry and myasthenia gravis. An autoantigenic site of the acetylcholine receptor alpha-subunit that has biologic activity and reacts immunochemically with herpes simplex virusClinical features, pathogenesis, and treatment of myasthenia gravis: a supplement to the Guidelines of the German Neurological SocietyThe crystal structure of the Fab fragment of a rat monoclonal antibody against the main immunogenic region of the human muscle acetylcholine receptorMain Immunogenic Region Structure Promotes Binding of Conformation-Dependent Myasthenia Gravis Autoantibodies, Nicotinic Acetylcholine Receptor Conformation Maturation, and Agonist SensitivityCompared structures of the free nicotinic acetylcholine receptor main immunogenic region (MIR) decapeptide and the antibody-bound [A76]MIR analogue: a molecular dynamics simulation from two-dimensional NMR dataDifferential targeting of components of the dystrophin complex to the postsynaptic membraneFine antigenic specificities of antibodies in sera from patients with D-penicillamine-induced myasthenia gravisDifferential targeting of components of the dystrophin complex to the postsynaptic membraneAutoimmunity and pregnancy.Localization of the main immunogenic region of human muscle acetylcholine receptor to residues 67-76 of the alpha subunitAntigenic structure of the human muscle nicotinic acetylcholine receptor main immunogenic regionStructural insights into the molecular mechanisms of myasthenia gravis and their therapeutic implications.Acetylcholine receptors and myasthenia.Identification of a cDNA clone coding for the acetylcholine binding subunit of Torpedo marmorata acetylcholine receptorHigh affinity binding of alpha-bungarotoxin to the purified alpha-subunit and to its 27,000-dalton proteolytic peptide from Torpedo marmorata acetylcholine receptor. Requirement for sodium dodecyl sulfate.Molecular targets for autoimmune and genetic disorders of neuromuscular transmission.T helper cell recognition of muscle acetylcholine receptor in myasthenia gravis. Epitopes on the gamma and delta subunits.Myasthenia gravis--current concepts.Human T-helper lymphocytes in myasthenia gravis recognize the nicotinic receptor alpha subunitNicotinic acetylcholine receptor and the structural basis of neuromuscular transmission: insights from Torpedo postsynaptic membranesImmunohistochemical localization of a neuronal nicotinic acetylcholine receptor in mammalian brainVaccines against myasthenia gravis.Recombinant expression of the AChR-alpha1 subunit for the detection of conformation-dependent epitopes in Myasthenia Gravis.Involvement of human muscle acetylcholine receptor alpha-subunit gene (CHRNA) in susceptibility to myasthenia gravis.Guidelines for pre-clinical assessment of the acetylcholine receptor--specific passive transfer myasthenia gravis model-Recommendations for methods and experimental designsSchwann cells and myasthenia gravis. Preferential uptake of soluble and membrane-bound AChR by normal and immortalized Schwann cells, and immunogenic presentation to AChR-specific T line lymphocytes.Pathogenesis of myasthenia gravis. Acetylcholine receptor-related antigenic determinants in tumor-free thymuses and thymic epithelial tumors.Structure and transmembrane nature of the acetylcholine receptor in amphibian skeletal muscle as revealed by cross-reacting monoclonal antibodies.Immunochemical demonstration that amino acids 360-377 of the acetylcholine receptor gamma-subunit are cytoplasmic.Surface and intracellular distribution of a putative neuronal nicotinic acetylcholine receptor.Novel beta subunit mutation causes a slow-channel syndrome by enhancing activation and decreasing the rate of agonist dissociationShared antigenic determinant between the Electrophorus acetylcholine receptor and a synaptic component on chicken ciliary ganglion neurons.Specificities of antibodies to acetylcholine receptors in sera from myasthenia gravis patients measured by monoclonal antibodies.Crystallization and preliminary crystallographic study of an Fab fragment of a pathogenic rat monoclonal antibody against the nicotinic acetylcholine receptor.Subunit structure of the acetylcholine receptor from Electrophorus electricus.Biochemical studies of taste sensation: monoclonal antibody against L-alanine binding activity of catfish taste epithelium.Clustering and immobilization of acetylcholine receptors by the 43-kD protein: a possible role for dystrophin-related protein.Antigen-specific modulation of experimental myasthenia gravis: nasal tolerization with recombinant fragments of the human acetylcholine receptor alpha-subunit.
P2860
Q24602799-3B79807B-288C-4F0C-9E48-8E3152CFF011Q24618824-B9C23A2B-91C5-4A3D-8DF3-3F26DD05D1BEQ24621002-18D92453-8528-44AB-99C4-0C69B7DF275FQ26765172-94F845FD-5E97-4307-8EED-E87971E41603Q27622174-795893A6-7000-4E8C-B28C-6F83E238FACAQ27658065-DC35C1B3-AD2E-47F8-A32D-A53C5A7D2AB9Q27734932-BD4FD85D-087D-46D0-BB4D-3EF4537F9AC2Q28199716-E87B6275-C347-4C84-BB10-D5D559C0A17DQ28339481-BCD490F6-B5EA-4F03-A1D8-E8C5EBD1C3C3Q29029451-7467DACB-7959-4E45-958A-3DC1F65F2BE5Q33458029-43BEF205-52AB-4A83-8D1F-A68FD09C71FCQ33568995-A90A6BE6-D19C-47BC-A5B3-8F3468946A02Q33598797-0F9FF03E-1FFC-491C-A0B0-EC48C8F4FEA2Q33602986-D860247C-0D92-478B-AE23-B6C20ADEB032Q33862589-9F8CCC6E-65AE-4ACA-A0E7-272360CE28FDQ33928376-245962A0-9E23-4F32-9587-05ADA7E3F0F4Q33933427-A0462145-B0F2-4B2D-8E07-CB118FFC2B1AQ34084610-4AAB06E5-0D0A-4DC2-A977-DA1F51708E2FQ34172481-AD217C39-E50E-4261-BD1D-AE371A1BD49CQ34192385-1124A0DB-D708-44EF-B981-9E2849B23CB1Q34334721-5FFF9A32-0085-482B-83BF-C02441D82E52Q34372276-AC4EA9C9-6425-4233-BA26-26DF8CCF09C1Q34374159-4B9FC74E-C92D-4455-B0BF-99555AE05CEBQ34433908-6796F369-BE04-4D4A-9582-C8621AEA646EQ34612779-3018E1B0-B37D-42A2-9DC0-D576D886E6DBQ34724508-C835EBE5-BD3F-4AAB-AE3A-DECD4197262DQ35738827-6F974C62-BFA5-4274-A4FA-1CE2C8A690BAQ35811339-583AFE3C-ABEE-4B8D-BC90-4D7D00522BD5Q35818229-5B086086-4112-48D9-8D49-F1D57C92F007Q36209933-142072E0-1E08-46EF-BC80-A6036FFFDA23Q36211812-9124B9C1-BC3D-41AE-B049-9F1FB9EFFC23Q36213006-FE3BCE81-6E03-4469-BA1B-3BEE98FC7128Q36257132-4C1659DF-FCFF-44D2-90E4-8ED83BA0C79CQ36261816-796F8409-AA98-4FE1-8418-2B6493B0BEABQ36275255-6D7618F3-93DC-4031-A7F8-4DB5D965061DQ36277683-D923A421-308C-4D54-8F1F-59CC8EF620B0Q36318173-F0288344-CA82-41C8-88FC-6F69BCA7A3F5Q36325348-05470665-E69E-46A4-9122-F05CD71411F8Q36383258-6607AB06-A371-4975-95AD-2314513E4089Q36415576-B9E69936-59DF-4E07-9D4E-4F25EA823607
P2860
Monoclonal antibodies used to probe acetylcholine receptor structure: localization of the main immunogenic region and detection of similarities between subunits.
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年学术文章
@wuu
1980年学术文章
@zh-cn
1980年学术文章
@zh-hans
1980年学术文章
@zh-my
1980年学术文章
@zh-sg
1980年學術文章
@yue
1980年學術文章
@zh
1980年學術文章
@zh-hant
name
Monoclonal antibodies used to ...... similarities between subunits.
@ast
Monoclonal antibodies used to ...... similarities between subunits.
@en
type
label
Monoclonal antibodies used to ...... similarities between subunits.
@ast
Monoclonal antibodies used to ...... similarities between subunits.
@en
prefLabel
Monoclonal antibodies used to ...... similarities between subunits.
@ast
Monoclonal antibodies used to ...... similarities between subunits.
@en
P2860
P356
P1476
Monoclonal antibodies used to ...... similarities between subunits.
@en
P2093
Lindstrom JM
Tzartos SJ
P2860
P304
P356
10.1073/PNAS.77.2.755
P407
P577
1980-02-01T00:00:00Z