Comparison of the cloned H-2Kbm1 variant gene with the H-2Kb gene shows a cluster of seven nucleotide differences.
about
Exon shuffling in vivo can generate novel HLA class I moleculesDirect demonstration of critical amino acid residues required for cytotoxic T-lymphocyte allorecognition of H-2 class I antigensComplete nucleotide sequence of a gene encoding a functional human class I histocompatibility antigen (HLA-CW3).Short gene conversions in the human fetal globin gene region: a by-product of chromosome pairing during meiosis?Discrimination of MHC-derived odors by untrained mice is consistent with divergence in peptide-binding region residues.Some models of gene conversion for treating the evolution of multigene families.CD40-activated B cells can efficiently prime antigen-specific naïve CD8+ T cells to generate effector but not memory T cells.Intramolecular recombination between partially homologous sequences in Escherichia coli and Xenopus laevis oocytes.Site-directed mutagenesis of an HLA-A3 gene identifies amino acid 152 as crucial for major-histocompatibility-complex-restricted and alloreactive cytotoxic-T-lymphocyte recognition.Influence of a genetic difference confined to mutation of H-2K on the incidence of pregnancy block in mice.Mitotic recombination in germ cells generated two major histocompatibility complex mutant genes shown to be identical by RNA sequence analysis: Kbm9 and Kbm6.Unexpected behavior of H2Kb mutant DNAs in denaturing gradient gel electrophoresis.The Role of T Cell Costimulation via DNAM-1 in Kidney Transplantation.Development of the CD4 and CD8 lineage of T cells: instruction versus selection.Cytolytic T cells recognize a chimeric MHC class I antigen expressed in influenza A infected transgenic mice.Correction of complex heteroduplexes made of mouse H-2 gene sequences in Escherichia coli K-12.Molecular basis of the dm1 mutation in the major histocompatibility complex of the mouse: a D/L hybrid gene.Organization and evolution of D region class I genes in the mouse major histocompatibility complexDifferent structural constraints for recognition of mouse H-2Kd and -Kk antigens by alloimmune cytolytic T lymphocytesAn immunodominant epitope present in multiple class I MHC molecules and recognized by cytotoxic T lymphocytes.Molecular characterization of the C3HfB/HeN H-2Kkm2 mutation. Implications for the molecular basis of alloreactivityMicrorecombinations generate sequence diversity in the murine major histocompatibility complex: analysis of the Kbm3, Kbm4, Kbm10, and Kbm11 mutantsInteraction between Kb and Q4 gene sequences generates the Kbm6 mutationSensory distinction between H-2b and H-2bm1 mutant miceComplete cDNA sequence of the fourth component of murine complement.Structural analysis of an HLA-B27 functional variant: identification of residues that contribute to the specificity of recognition by cytolytic T lymphocytes.A molecular hybrid of the H-2Dd and H-2Ld genes expressed in the dm1 mutant.The structure of the antigen-binding groove of major histocompatibility complex class I molecules determines specific selection of self-peptidesCharacterization of an HLA DR beta pseudogeneEvidence that polymorphism in the murine major histocompatibility complex may be generated by the assortment of subgene sequences.Complete nucleotide sequence of the murine H-2Kk gene. Comparison of three H-2K locus alleles.Comparison of the promoter regions of H-2Kb and H-2Kbm1 class I MHC genesPalindromic sequences are associated with sites of DNA breakage during gene conversion.Identification of sequences responsible for positive and negative regulation by E1A in the promoter of H-2Kbm1 class I MHC gene.Somatic variation of H-2Kk expression and structure in a T-cell lymphoma: instability, stabilization, high production and structural mutation.Gene conversion rapidly generates major histocompatibility complex diversity in recently founded bird populations.Therapeutic implications of NK cell regulation of allogeneic CD8 T cell-mediated immune responses stimulated through the direct pathway of antigen presentation in transplantation
P2860
Q24555794-A649B90A-BB1A-47EF-AB9E-76D8CA0404A0Q33570623-0D7FD73D-6047-43A9-8CEF-108F783579B0Q33939466-1FC1F6E4-1D76-406A-A49F-33C1A06C523BQ33951652-4540185F-40F1-4E49-A39D-38DBC3E518DEQ34012697-DCDD1F11-38E7-4DBD-9975-9F9F517D5D61Q34014339-A04607EF-4E2B-41F5-9798-2650F11ED9B9Q34145881-F5792E65-A92C-425E-93F5-9AE88367A396Q34346451-9D3232B6-0259-4851-BD99-095A1244595AQ34640674-C1452F74-DC09-4978-BEE9-C2677E68EEABQ35588792-6F4DCE86-2163-4E88-A97F-970FE6C15DBEQ35605598-09AB7723-A82D-41A6-9665-D463681E9E19Q35768604-F6502C2E-1517-4341-A60A-D04BC7874CE7Q35913309-C0F3A659-8850-4D18-B1B0-CFA644793739Q35923678-59DB81E8-1FE9-48B3-B81A-5ADE45B301D4Q35993317-68AFFF76-F213-4AB3-A03A-F35105E10460Q36247482-92E12D10-180E-4116-A116-1BC28912B72DQ36351221-02921D8A-21D1-4E7B-89BB-35B479343F33Q36351824-56869AF0-FFA7-4A87-AA04-B15B66773A31Q36353223-2818CE39-04AB-42FF-8F5D-1F3892614008Q36355134-B615D2E4-B88D-44B1-A276-409ADAB1CC94Q36355627-96ACC3E6-D011-42BD-879A-E8B5B10244BFQ36847160-11135ED5-3EE8-4BCF-B7C0-C083FFA1C539Q36910005-D29CF411-A47E-40F0-92C5-71708AF408A2Q37349398-6382FE19-3087-4905-AD6F-6CCB975957A5Q37531187-DE38D079-D1F7-4A0A-9993-BCBE1078B3F7Q37553987-DCE199E4-B12D-49D2-92B2-B9C5DB77AE1CQ37563936-002217C8-AFE1-41BC-BAC5-A3997CDD0608Q37640010-6A7A548B-B7E9-4018-9125-708D2D608945Q37679551-CF054020-FFE7-4865-A272-C2842FAA78DCQ37686488-D32DD7AA-C321-4907-A323-ACFAFAFC7A6CQ40463427-FBB4405F-36D7-40E3-BA73-011A32D4515BQ40518489-52B92CD9-1CD2-4BAC-8537-F741CEBAE565Q40561631-A779DE2A-479F-49B7-916D-BABA4E0760B7Q41200298-04DC9EDD-6AB7-4F50-9B9A-3C972428D05DQ41464426-AD776DBC-7075-4684-9B69-5A5063F2E411Q43506668-3FD7A2DB-5530-46A7-8BD3-06720A334E7FQ58762253-D9FC6A86-6049-4EE3-8C54-4C63038118F6
P2860
Comparison of the cloned H-2Kbm1 variant gene with the H-2Kb gene shows a cluster of seven nucleotide differences.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 1983
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@en
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@nl
type
label
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@en
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@nl
prefLabel
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@en
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@nl
P2093
P2860
P356
P1476
Comparison of the cloned H-2Kb ...... seven nucleotide differences.
@en
P2093
D H Schulze
L A Sarmiento
R B Wallace
S G Nathenson
P2860
P304
P356
10.1073/PNAS.80.7.2007
P407
P577
1983-04-01T00:00:00Z