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Summary Expression Phenotypes Gene Literature (128) GO Terms (1) Nucleotides (161) Proteins (32) Interactants (381) Wiki
XB-GENEPAGE-485306

Papers associated with mhc1a



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A comparison of amphibian (Xenopus laevis) tadpole and adult frog macrophages., Hossainey MRH, Yaparla A, Uzzaman Z, Moore T, Grayfer L., Dev Comp Immunol. April 1, 2023; 141 104647.      

Cell landscape of larval and adult Xenopus laevis at single-cell resolution., Liao Y, Ma L, Guo Q, E W, Fang X, Yang L, Ruan F, Wang J, Zhang P, Sun Z, Chen H, Lin Z, Wang X, Wang X, Sun H, Fang X, Zhou Y, Chen M, Shen W, Guo G, Han X., Nat Commun. July 25, 2022; 13 (1): 4306.                                                        

SIVcol Nef counteracts SERINC5 by promoting its proteasomal degradation but does not efficiently enhance HIV-1 replication in human CD4+ T cells and lymphoid tissue., Kmiec D, Akbil B, Ananth S, Hotter D, Sparrer KMJ, Stürzel CM, Trautz B, Ayouba A, Peeters M, Yao Z, Stagljar I, Passos V, Zillinger T, Goffinet C, Sauter D, Fackler OT, Kirchhoff F., PLoS Pathog. August 20, 2018; 14 (8): e1007269.                    

Genome-wide identification of thyroid hormone receptor targets in the remodeling intestine during Xenopus tropicalis metamorphosis., Fu L, Das B, Matsuura K, Fujimoto K, Heimeier RA, Shi YB, Shi YB., Sci Rep. July 25, 2017; 7 (1): 6414.            

Coevolution of MHC genes (LMP/TAP/class Ia, NKT-class Ib, NKp30-B7H6): lessons from cold-blooded vertebrates., Ohta Y, Flajnik MF., Immunol Rev. September 1, 2015; 267 (1): 6-15.

A critical role of non-classical MHC in tumor immune evasion in the amphibian Xenopus model., Haynes-Gilmore N, Banach M, Edholm ES, Lord E, Robert J., Carcinogenesis. August 1, 2014; 35 (8): 1807-13.

R4 regulators of G protein signaling (RGS) identify an ancient MHC-linked synteny group., Suurväli J, Robert J, Boudinot P, Rüütel Boudinot S., Immunogenetics. February 1, 2013; 65 (2): 145-56.

Hsp72 mediates stronger antigen-dependent non-classical MHC class Ib anti-tumor responses than hsc73 in Xenopus laevis., Nedelkovska H, Robert J., Cancer Immun. January 1, 2013; 13 4.

Genetic diversity of MHC class I loci in six non-model frogs is shaped by positive selection and gene duplication., Kiemnec-Tyburczy KM, Richmond JQ, Savage AE, Lips KR, Zamudio KR., Heredity (Edinb). September 1, 2012; 109 (3): 146-55.

Evolution of the B7 family: co-evolution of B7H6 and NKp30, identification of a new B7 family member, B7H7, and of B7's historical relationship with the MHC., Flajnik MF, Tlapakova T, Criscitiello MF, Krylov V, Ohta Y., Immunogenetics. August 1, 2012; 64 (8): 571-90.

Ecological immunogenetics of life-history traits in a model amphibian., Barribeau SM, Villinger J, Waldman B., Biol Lett. June 23, 2012; 8 (3): 405-7.    

Cloning and expression analysis of interferon-γ-inducible-lysosomal thiol reductase gene in South African clawed frog (Xenopus laevis)., Cui XW, Xiao W, Ke Z, Liu X, Xu XZ, Zhang SQ., Int Immunopharmacol. December 1, 2011; 11 (12): 2091-7.  

Antiviral immunity in amphibians., Chen G, Robert J., Viruses. November 1, 2011; 3 (11): 2065-2086.        

Comparative in vivo study of gp96 adjuvanticity in the frog Xenopus laevis., Nedelkovska H, Cruz-Luna T, McPherson P, Robert J., J Vis Exp. September 3, 2010; (43):


Xenopus, a unique comparative model to explore the role of certain heat shock proteins and non-classical MHC class Ib gene products in immune surveillance., Robert J, Goyos A, Nedelkovska H., Immunol Res. December 1, 2009; 45 (2-3): 114-22.

The keratin-related Ouroboros proteins function as immune antigens mediating tail regression in Xenopus metamorphosis., Mukaigasa K, Hanasaki A, Maéno M, Fujii H, Hayashida S, Itoh M, Kobayashi M, Tochinai S, Hatta M, Iwabuchi K, Taira M, Onoé K, Izutsu Y., Proc Natl Acad Sci U S A. October 27, 2009; 106 (43): 18309-14.      

Novel nonclassical MHC class Ib genes associated with CD8 T cell development and thymic tumors., Goyos A, Ohta Y, Guselnikov S, Robert J., Mol Immunol. May 1, 2009; 46 (8-9): 1775-86.

Molecular characterization of major histocompatibility complex class II alleles in the common frog, Rana temporaria., Zeisset I, Beebee TJ., Mol Ecol Resour. May 1, 2009; 9 (3): 738-45.

High levels of genetic variation at MHC class II DBB loci in the tammar wallaby (Macropus eugenii)., Cheng Y, Siddle HV, Beck S, Eldridge MD, Belov K., Immunogenetics. February 1, 2009; 61 (2): 111-8.

Evidence for directional selection at a novel major histocompatibility class I marker in wild common frogs (Rana temporaria) exposed to a viral pathogen (Ranavirus)., Teacher AG, Garner TW, Nichols RA., PLoS One. January 1, 2009; 4 (2): e4616.      

Tumorigenesis and anti-tumor immune responses in Xenopus., Goyos A, Robert J., Front Biosci (Landmark Ed). January 1, 2009; 14 (1): 167-76.

Diversity of the FcR- and KIR-related genes in an amphibian Xenopus., Guselnikov SV, Ramanayake T, Robert J, Taranin AV., Front Biosci (Landmark Ed). January 1, 2009; 14 (1): 130-40.

IGFBP-4 is an inhibitor of canonical Wnt signalling required for cardiogenesis., Zhu W, Shiojima I, Ito Y, Li Z, Ikeda H, Yoshida M, Naito AT, Nishi J, Ueno H, Umezawa A, Minamino T, Nagai T, Kikuchi A, Asashima M, Komuro I., Nature. July 17, 2008; 454 (7202): 345-9.                        

Self-referent MHC type matching in frog tadpoles., Villinger J, Waldman B., Proc Biol Sci. May 22, 2008; 275 (1639): 1225-30.

In vivo and in vitro techniques for comparative study of antiviral T-cell responses in the amphibian Xenopus., Morales H, Robert J., Biol Proced Online. January 17, 2008; 10 1-8.      

Molecular characterization of MHC class II in a nonmodel anuran species, the fire-bellied toad Bombina bombina., Hauswaldt JS, Stuckas H, Pfautsch S, Tiedemann R., Immunogenetics. June 1, 2007; 59 (6): 479-91.

Involvement of nonclassical MHC class Ib molecules in heat shock protein-mediated anti-tumor responses., Goyos A, Guselnikov S, Chida AS, Sniderhan LF, Maggirwar SB, Nedelkovska H, Robert J., Eur J Immunol. June 1, 2007; 37 (6): 1494-501.

In vivo study of T-cell responses to skin alloantigens in Xenopus using a novel whole-mount immunohistology method., Ramanayake T, Simon DA, Frelinger JG, Lord EM, Robert J., Transplantation. January 27, 2007; 83 (2): 159-66.

Polymorphism, natural selection, and structural modeling of class Ia MHC in the African clawed frog (Xenopus laevis)., Bos DH, Waldman B., Immunogenetics. June 1, 2006; 58 (5-6): 433-42.

Ancestral organization of the MHC revealed in the amphibian Xenopus., Ohta Y, Goetz W, Hossain MZ, Nonaka M, Flajnik MF., J Immunol. March 15, 2006; 176 (6): 3674-85.

Evolution by recombination and transspecies polymorphism in the MHC class I gene of Xenopus laevis., Bos DH, Waldman B., Mol Biol Evol. January 1, 2006; 23 (1): 137-43.

Adaptive immunity and histopathology in frog virus 3-infected Xenopus., Robert J, Morales H, Buck W, Cohen N, Marr S, Gantress J., Virology. February 20, 2005; 332 (2): 667-75.

Cloning and characterization of Xenopus beta2-microglobulin., Stewart R, Ohta Y, Minter RR, Gibbons T, Horton TL, Ritchie P, Horton JD, Flajnik MF, Watson MD., Dev Comp Immunol. January 1, 2005; 29 (8): 723-32.

Phylogenetic conservation of gp96-mediated antigen-specific cellular immunity: new evidence from adoptive cell transfer in xenopus., Maniero GD, Robert J., Transplantation. November 27, 2004; 78 (10): 1415-21.

Anti-tumor MHC class Ia-unrestricted CD8 T cell cytotoxicity elicited by the heat shock protein gp96., Goyos A, Cohen N, Gantress J, Robert J., Eur J Immunol. September 1, 2004; 34 (9): 2449-58.

Innate immunity in early chordates and the appearance of adaptive immunity., Du Pasquier L., C R Biol. June 1, 2004; 327 (6): 591-601.

Immunoglobulin superfamily receptors in protochordates: before RAG time., Du Pasquier L, Zucchetti I, De Santis R., Immunol Rev. April 1, 2004; 198 233-48.

[Evolutionary development of the immunoglobulins super family]., Galaktionov VG., Izv Akad Nauk Ser Biol. January 1, 2004; (2): 133-45.

Xenopus as an experimental model for studying evolution of hsp--immune system interactions., Robert J, Gantress J, Cohen N, Maniero GD., Methods. January 1, 2004; 32 (1): 42-53.

Two highly divergent ancient allelic lineages of the transporter associated with antigen processing (TAP) gene in Xenopus: further evidence for co-evolution among MHC class I region genes., Ohta Y, Powis SJ, Lohr RL, Nonaka M, Pasquier LD, Flajnik MF., Eur J Immunol. November 1, 2003; 33 (11): 3017-27.

Ontogeny of Xenopus NK cells in the absence of MHC class I antigens., Horton TL, Stewart R, Cohen N, Rau L, Ritchie P, Watson MD, Robert J, Horton JD., Dev Comp Immunol. September 1, 2003; 27 (8): 715-26.

Development and characterization of a model system to study amphibian immune responses to iridoviruses., Gantress J, Maniero GD, Cohen N, Robert J., Virology. July 5, 2003; 311 (2): 254-62.

Evolution of the immunomodulatory role of the heat shock protein gp96., Robert J, Cohen N, Maniero GD, Goyos A, Morales H, Gantress J., Cell Mol Biol (Noisy-le-grand). March 1, 2003; 49 (2): 263-75.

Xenopus class II A genes: studies of genetics, polymorphism, and expression., Liu Y, Kasahara M, Rumfelt LL, Flajnik MF., Dev Comp Immunol. October 1, 2002; 26 (8): 735-50.

The fate of duplicated major histocompatibility complex class Ia genes in a dodecaploid amphibian, Xenopus ruwenzoriensis., Sammut B, Marcuz A, Pasquier LD., Eur J Immunol. September 1, 2002; 32 (9): 2698-709.

Identification and characterization of Xenopus CD8+ T cells expressing an NK cell-associated molecule., Rau L, Gantress J, Bell A, Stewart R, Horton T, Cohen N, Horton J, Robert J., Eur J Immunol. June 1, 2002; 32 (6): 1574-83.

Cutting edge: recruitment of the ancestral fyn gene during emergence of the adaptive immune system., Picard C, Gilles A, Pontarotti P, Olive D, Collette Y., J Immunol. March 15, 2002; 168 (6): 2595-8.

Minor histocompatibility antigen-specific MHC-restricted CD8 T cell responses elicited by heat shock proteins., Robert J, Gantress J, Rau L, Bell A, Cohen N., J Immunol. February 15, 2002; 168 (4): 1697-703.

MHC-restricted and -unrestricted CD8 T cells: an evolutionary perspective., Rau L, Cohen N, Robert J., Transplantation. December 15, 2001; 72 (11): 1830-5.

The role of CD44 during CD40 ligand-induced dendritic cell clustering and maturation., Termeer C, Johannsen H, Braun T, Renkl A, Ahrens T, Denfeld RW, Lappin MB, Weiss JM, Simon JC., J Leukoc Biol. November 1, 2001; 70 (5): 715-22.

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