Quantitative investigations of idiotypic antibodies. VI. Idiotypic specificity as a potential genetic marker for the variable regions of mouse immunoglobulin polypeptide chains.
about
Three-dimensional structure of two crystal forms of FabR19.9 from a monoclonal anti-arsonate antibodyContact sensitivity to azobenzenearsonate and its inhibition after interaction of sensitized cells with antigen-conjugated cellsStructural correlates of high antibody affinity: three engineered amino acid substitutions can increase the affinity of an anti-p-azophenylarsonate antibody 200-foldThree-dimensional structure of Fab R19.9, a monoclonal murine antibody specific for the p-azobenzenearsonate groupIsotype switching by a microinjected mu immunoglobulin heavy chain gene in transgenic miceExtent and control of antibody diversity.Antiidiotypic antibody vaccine in murine Schistosomiasis mansoni comprising the internal image of antigen.Network interactions in Schistosoma japonicum infection. Identification and characterization of a serologically distinct immunoregulatory auto-antiidiotypic antibody populationBinding to idiotypic determinants of large proportions of thymus-derived lymphocytes in idiotypically suppressed mice.Evidence for an immunoglobulin-dependent antigen-specific helper T cell.Segregation at a locus determining an immunoglobulin genetic marker for the light chain variable region affects inheritance of expression of an idiotypeIdiotypic regulation of the immune system by the induction of antibodies against anti-idiotypic antibodies.Constancy of amino-terminal amino-acid sequences of antibodies of defined specificity and shared idiotype from individual inbred mice.Splitting the difference: the germline-somatic mutation debate on generating antibody diversity.Influence of helper T cells on the expression of a murine intrastrain crossreactive idiotypeRelationship of VH and VL genes encoding three idiotypic families of anti-p-azobenzenearsonate antibodies.Somatic evolution of variable region structures during an immune response.Site-directed mutagenesis of an invariant amino acid residue at the variable-diversity segments junction of an antibodyIsolation of hybridomas expressing a specific heavy chain variable region gene segment by using a screening technique that detects mRNA sequences in whole cell lysatesExpression and rearrangement of homologous immunoglobulin VH genes in two mouse strains.Suppression of idiotypic specificities in adult mice by administration of antiidiotypic antibodyDistribution of a cross-reactive idiotypic specificity in inbred strains of miceRequirements for prolonged suppression of an idiotypic specificity in adult miceEvidence for the linkage of the IGC H locus to a gene controlling the idiotypic specificity of anti-p-azophenylarsonate antibodies in strain A mice.Idiotype expression and the inheritance of mouse antibody clones.An idiotypic cross-reaction between allotype a3 and allotype a negative rabbit antibodies to streptococcal carbohydrate.Genetics of a new IgVH (T15 idiotype) marker in the mouse regulating natural antibody to phosphorylcholine.Clonal nature of the immune response to phosphorylcholine. IV. Idiotypic uniformity of binding site-associated antigenic determinants among mouse antiphosphorylcholine antibodies.Enhancing antibody: a novel component of the immune response.Presence on idiotype-specific suppressor T cells of receptors that interact with molecules bearing the idiotype.Idiotypes of inulin-binding myeloma proteins localized to variable region light and heavy chains: genetic significanceComplete inhibition of the expression of an idiotype by a mechanism of B-cell dominanceCellular basis of regulation of expression of idiotype. II. Immunity to anti-MOPC-460 idiotype antibodies increases the level of anti-trinitrophenyl antibodies bearing 460 idiotypesMechanisms of regulation of cell-mediated immunity. III. The characterization of azobenzenearsonate-specific suppressor T-cell-derived-suppressor factorsMechanisms of regulation of cell-mediated immunity. IV. Azobenzenearsonate-specific suppressor factor(s) bear cross-reactive idiotypic determinants the expression of which is linked to the heavy-chain allotype linkage group of genes.Effect of idiotype-specific suppressor T cells on primary and secondary responses.Alteration of clonal profile. I. Effect of sublethal irradiation on the responses to phosphorylcholine in BALB/c mice.Autoregulation of an antibody response via network-induced auto-anti-idiotypeSuppression of idiotype and generation of suppressor T cells with idiotype-conjugated thymocytes.Antigen- and receptor-driven regulatory mechanisms. I. Induction of suppressor T cells with anti-idiotypic antibodies.
P2860
Q27642149-DC82393A-065B-482D-86D3-5C7CF52BD664Q28366712-F0BAA86F-316E-48B9-A622-1F1A06DC786AQ33646218-8F09297C-A3D9-4409-9A8D-7F1545634FB1Q33832112-069E95E4-3B66-4DE4-B72E-68D25D211D3AQ33847579-27C3410E-AF2B-491F-9627-E697C706423BQ34202436-803DA9CB-ADB3-44CC-B577-D8A029042B5CQ34568493-7DD94B88-7615-40F8-B13D-0B80ADC2A507Q34569948-4271571D-DF0D-40CA-AC71-368829350104Q35027811-B85507DE-D914-4718-BAA4-F43A2F1603BCQ35058262-AB95F954-D29D-4B84-8D1D-FB6840809390Q35058376-3F0C1599-7469-45DF-97C3-76E171279A64Q35062222-D4DD6451-2D60-408A-AD3F-BCDA62C3E626Q35089576-71C9D959-4DEA-4C2C-9795-FA291B4910DCQ35207080-29F6B8BB-1F92-4EAD-946A-9AE8960EA8BFQ35584478-38D4E5F1-9D88-4828-90A8-43826E1E7417Q35590885-73409FF6-847B-48EA-A91D-7E72263822ECQ35595595-CC85BCC3-2FC7-4DCC-851F-FECD4521CF4CQ35600396-58EE914A-AA63-46DF-B9D0-D41F47C41E52Q36257696-86C06477-FE78-46D8-A4C0-E02C8CC9C3DDQ36266924-AF9E3E71-0D6A-4A3B-ABDD-CBDA5EE00695Q36271586-357D5ACE-0D2C-4FD4-9A7E-53788C76C57DQ36271815-32503A47-B633-4AAD-A304-23745B9C6B8DQ36272230-467F2D5D-4E49-4D45-A1E8-641DF4517C64Q36272296-190241E8-7093-49D8-9BAF-9B05A6AED1CAQ36272373-129BF570-A89D-4431-B128-934907BDB40EQ36272401-B9521FC0-2BCD-458E-96C2-74D1CC436B01Q36273089-945BE0B0-6252-4FF2-BF87-971C59AFE0F7Q36273225-8FBAF7D3-898C-4D66-8EC2-7CEB0E8DF53CQ36300341-8D3BB001-AEE5-4D13-BF37-FF501B7C0FDEQ36335448-9DE1CA22-D739-4765-A3F7-0A6704CD9D73Q36336168-B85E9DE9-C91F-4119-A427-EDCB6AEA6D81Q36337229-435CF885-6064-4C53-BFF0-C740A5CC0F28Q36341400-E511EA1E-F08E-4939-94B7-652EAE691704Q36341422-2330CFDF-170B-426F-BFF2-C148DFDFE446Q36341497-93915A12-85D7-4F4E-9138-F4DC7994491DQ36341678-4977AEF9-7799-4A4B-B543-70A1AA7E730BQ36341983-CA47F4A2-0FB7-49C6-919E-9865F51BBC54Q36342676-11274F88-CCD5-4726-BE9B-0752A4CAD4ECQ36342862-86CAD5C9-77EE-450E-AF71-9B5A9DA61175Q36342979-28A7346A-0EC6-4D14-B482-8FDE10A011CF
P2860
Quantitative investigations of idiotypic antibodies. VI. Idiotypic specificity as a potential genetic marker for the variable regions of mouse immunoglobulin polypeptide chains.
description
1972 nî lūn-bûn
@nan
1972年の論文
@ja
1972年学术文章
@wuu
1972年学术文章
@zh-cn
1972年学术文章
@zh-hans
1972年学术文章
@zh-my
1972年学术文章
@zh-sg
1972年學術文章
@yue
1972年學術文章
@zh
1972年學術文章
@zh-hant
name
Quantitative investigations of ...... noglobulin polypeptide chains.
@ast
Quantitative investigations of ...... noglobulin polypeptide chains.
@en
type
label
Quantitative investigations of ...... noglobulin polypeptide chains.
@ast
Quantitative investigations of ...... noglobulin polypeptide chains.
@en
prefLabel
Quantitative investigations of ...... noglobulin polypeptide chains.
@ast
Quantitative investigations of ...... noglobulin polypeptide chains.
@en
P2093
P2860
P356
P1476
Quantitative investigations of ...... noglobulin polypeptide chains.
@en
P2093
P2860
P304
P356
10.1084/JEM.135.3.579
P407
P577
1972-03-01T00:00:00Z