| scholarly article | Q13442814 |
| P50 | author | Duarte C. Barral | Q47504011 |
| Emilio Parisini | Q58234234 | ||
| P2093 | author name string | Michael B Brenner | |
| Christopher C Dascher | |||
| Heide L Ford | |||
| Stella Y Lee | |||
| Ricardo D Coletta | |||
| Marcia M Miller | |||
| Ronald M Goto | |||
| Carren Wang | |||
| Carme Roura-Mir | |||
| Maria Townes | |||
| P2860 | cites work | Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution | Q22122484 |
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| MEGA3: Integrated software for Molecular Evolutionary Genetics Analysis and sequence alignment | Q27860726 | ||
| The evolution of dinosaurs | Q28138081 | ||
| Polymorphism of human CD1 genes | Q28144460 | ||
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| Gene duplication and the uniqueness of vertebrate genomes circa 1970-1999. | Q33794254 | ||
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| Functions for MHC class I carbohydrates inside and outside the cell | Q38351629 | ||
| The CD1 family: a third lineage of antigen-presenting molecules | Q40373273 | ||
| Origin and evolution of the class I gene family: why are some of the mammalian class I genes encoded outside the major histocompatibility complex? | Q41171403 | ||
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| Low expression levels of soluble CD1d gene in patients with rheumatoid arthritis. | Q54734387 | ||
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| Linkage of the major histocompatibility (B) complex and the nucleolar organizer in the chicken. Assignment to a microchromosome | Q70112774 | ||
| Alternative splicing forms of the human CD1D gene in mononuclear cells | Q73006021 | ||
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| P433 | issue | 24 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 8674-8679 | |
| P577 | publication date | 2005-06-06 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Characterization of two avian MHC-like genes reveals an ancient origin of the CD1 family | |
| P478 | volume | 102 |
| Q88102887 | A cold-blooded view of adaptive immunity |
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| Q35774673 | A novel locus on the X chromosome regulates post-maturity bone density changes in mice |
| Q38217703 | A prominent role for invariant T cells in the amphibian Xenopus laevis tadpoles |
| Q36377172 | A subset of AID-dependent B-1a cells initiates hypersensitivity and pneumococcal pneumonia resistance. |
| Q28743012 | Analysis of the CD1 antigen presenting system in humanized SCID mice |
| Q48083399 | Analysis of the genomic structure of the porcine CD1 gene cluster |
| Q50278827 | Analysis of the reptile CD1 genes: evolutionary implications |
| Q47598494 | At least one YMHCI molecule in the chicken is alloimmunogenic and dynamically expressed on spleen cells during development |
| Q37377380 | BG1 has a major role in MHC-linked resistance to malignant lymphoma in the chicken. |
| Q33854037 | Bird genes give new insights into the origins of lipid antigen presentation |
| Q28076184 | Brief review of the chicken Major Histocompatibility Complex: the genes, their distribution on chromosome 16, and their contributions to disease resistance |
| Q26863207 | CD1 and mycobacterial lipids activate human T cells |
| Q33695019 | CD1: A Singed Cat of the Three Antigen Presentation Systems. |
| Q34593316 | CD1a and MHC class I follow a similar endocytic recycling pathway |
| Q43851750 | Characterisation of non-classical MHC class I genes in the Tasmanian devil (Sarcophilus harrisii). |
| Q48123513 | Chicken CD1 genes are located in the MHC: CD1 and endothelial protein C receptor genes constitute a distinct subfamily of class-I-like genes that predates the emergence of mammals |
| Q38062281 | Co-dependents: MR1-restricted MAIT cells and their antimicrobial function |
| Q38568860 | Co-evolution with chicken class I genes. |
| Q28081315 | Coevolution of MHC genes (LMP/TAP/class Ia, NKT-class Ib, NKp30-B7H6): lessons from cold-blooded vertebrates |
| Q26797242 | Coevolution of T-cell receptors with MHC and non-MHC ligands |
| Q38568863 | Comparative genomics of the NKG2D ligand gene family |
| Q50134129 | Conservation of sequence motifs suggests that the nonclassical MHC class I lineages CD1/PROCR and UT were established before the emergence of tetrapod species. |
| Q38478800 | Copy number variation in Fayoumi and Leghorn chickens analyzed using array comparative genomic hybridization |
| Q37353709 | Cutting Edge: CD1a tetramers and dextramers identify human lipopeptide-specific T cells ex vivo. |
| Q38883502 | Evolution of innate-like T cells and their selection by MHC class I-like molecules |
| Q54560894 | Evolution of mammalian CD1: marsupial CD1 is not orthologous to the eutherian isoforms and is a pseudogene in the opossum Monodelphis domestica. |
| Q34527136 | Evolution of nonclassical MHC-dependent invariant T cells |
| Q39228326 | Exceptionally high conservation of the MHC class I-related gene, MR1, among mammals. |
| Q39673078 | Exploring the functions of nonclassical MHC class Ib genes in Xenopus laevis by the CRISPR/Cas9 system |
| Q41807575 | Expression, purification and preliminary X-ray crystallographic analysis of the chicken MHC class I molecule YF1*7.1. |
| Q38662456 | Extreme MHC class I diversity in the sedge warbler (Acrocephalus schoenobaenus); selection patterns and allelic divergence suggest that different genes have different functions. |
| Q28754728 | Functional CD1d and/or NKT cell invariant chain transcript in horse, pig, African elephant and guinea pig, but not in ruminants |
| Q33548504 | Gene duplication and fragmentation in the zebra finch major histocompatibility complex. |
| Q92276407 | Genetic Mutation Analysis of High and Low IgY Chickens by Capture Sequencing |
| Q33657299 | High-dimensional variable selection in meta-analysis for censored data |
| Q38030461 | Immunogenetics of the NKG2D ligand gene family |
| Q40011111 | Inhibition of CD1 antigen presentation by human cytomegalovirus |
| Q38590013 | Lipid and small-molecule display by CD1 and MR1. |
| Q28066672 | Location, location, location: the evolutionary history of CD1 genes and the NKR-P1/ligand systems |
| Q28596919 | Mammalian CD1 and MR1 genes |
| Q83889078 | Modo-UG, a marsupial nonclassical MHC class I locus |
| Q38516723 | Molecular characterization of the immune system: emergence of proteins, processes, and domains. |
| Q37344563 | Novel nonclassical MHC class Ib genes associated with CD8 T cell development and thymic tumors |
| Q80359292 | Patterns of nonclassical MHC antigen presentation |
| Q37436931 | Polymorphism in Exon 2 of CD1 Genes in Southwest of Iran |
| Q37100905 | Polymorphisms in CD1d affect antigen presentation and the activation of CD1d-restricted T cells |
| Q34987421 | Presentation of lipid antigens by CD1 glycoproteins |
| Q21092780 | Reconstructing an ancestral mammalian immune supercomplex from a marsupial major histocompatibility complex |
| Q38929916 | Refinement of the canine CD1 locus topology and investigation of antibody binding to recombinant canine CD1 isoforms |
| Q51774600 | Seasonal variation in volatile compound profiles of preen gland secretions of the dark-eyed junco (Junco hyemalis). |
| Q64934197 | Semiochemical compounds of preen secretion reflect genetic make-up in a seabird species. |
| Q27659192 | Structural Basis for Lipid-Antigen Recognition in Avian Immunity |
| Q27666285 | Structure of a Classical MHC Class I Molecule That Binds “Non-Classical” Ligands |
| Q38883512 | The CD1 family: serving lipid antigens to T cells since the Mesozoic era. |
| Q28252159 | The Chicken Gene Nomenclature Committee report |
| Q27652882 | The crystal structure of avian CD1 reveals a smaller, more primordial antigen-binding pocket compared to mammalian CD1 |
| Q37525591 | The evolved functions of CD1 during infection |
| Q42131220 | The peptide motif of the single dominantly expressed class I molecule of the chicken MHC can explain the response to a molecular defined vaccine of infectious bursal disease virus (IBDV). |
| Q36472036 | The surprising diversity of lipid antigens for CD1-restricted T cells |
| Q33897591 | Unusual evolutionary conservation and further species-specific adaptations of a large family of nonclassical MHC class Ib genes across different degrees of genome ploidy in the amphibian subfamily Xenopodinae |
| Q25256392 | Various hypotheses on MHC evolution suggested by the concerted evolution of CD94L and MHC class Ia molecules |
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