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Summary Expression Phenotypes Gene Literature (274) GO Terms (11) Nucleotides (367) Proteins (70) Interactants (922) Wiki
XB--968717

Papers associated with myh6



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The MLC1v gene provides a transgenic marker of myocardium formation within developing chambers of the Xenopus heart., Smith SJ, Ataliotis P, Kotecha S, Towers N, Sparrow DB, Mohun TJ., Dev Dyn. April 1, 2005; 232 (4): 1003-12.            

Wnt11-R, a protein closely related to mammalian Wnt11, is required for heart morphogenesis in Xenopus., Garriock RJ, D'Agostino SL, Pilcher KC, Krieg PA., Dev Biol. March 1, 2005; 279 (1): 179-92.          

Myocardin is sufficient and necessary for cardiac gene expression in Xenopus., Small EM, Warkman AS, Wang DZ, Sutherland LB, Olson EN, Krieg PA., Development. March 1, 2005; 132 (5): 987-97.            

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.

The genomic environment around the Aromatase gene: evolutionary insights., Castro LF, Santos MM, Reis-Henriques MA., BMC Evol Biol. February 13, 2005; 5 43.          

Evolutionary conservation and characterization of the bare lymphocyte syndrome transcription factor RFX-B and its paralogue ANKRA2., Long AB, Boss JM., Immunogenetics. February 1, 2005; 56 (11): 788-97.

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.

CD91 up-regulates upon immune stimulation in Xenopus adult but not larval peritoneal leukocytes., Marr S, Goyos A, Gantress J, Maniero GD, Robert J., Immunogenetics. January 1, 2005; 56 (10): 735-42.

Myogenic regulatory factors: redundant or specific functions? Lessons from Xenopus., Chanoine C, Della Gaspera B, Charbonnier F., Dev Dyn. December 1, 2004; 231 (4): 662-70.  

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.

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

Inhibition of the cell cycle is required for convergent extension of the paraxial mesoderm during Xenopus neurulation., Leise WF, Mueller PR., Development. April 1, 2004; 131 (8): 1703-15.              

Analysis of genomic and expressed major histocompatibility class Ia and class II genes in a hexaploid Lake Tana African 'large' barb individual (Barbus intermedius)., Kruiswijk CP, Hermsen T, Fujiki K, Dixon B, Savelkoul HF, Stet RJ., Immunogenetics. February 1, 2004; 55 (11): 770-81.

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.

Fibroblast growth factor receptor-1 is essential for in vitro cardiomyocyte development., Dell'Era P, Ronca R, Coco L, Nicoli S, Metra M, Presta M., Circ Res. September 5, 2003; 93 (5): 414-20.

Amphibian in vitro heart induction: a simple and reliable model for the study of vertebrate cardiac development., Ariizumi T, Kinoshita M, Yokota C, Takano K, Fukuda K, Moriyama N, Malacinski GM, Asashima M., Int J Dev Biol. September 1, 2003; 47 (6): 405-10.      

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.

Hypoxia-induced switches of myosin heavy chain iso-gene expression in rat heart., Razeghi P, Essop MF, Huss JM, Abbasi S, Manga N, Taegtmeyer H., Biochem Biophys Res Commun. April 18, 2003; 303 (4): 1024-7.

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.

The c-SRC1 gene visualized by in situ hybridization on Xenopus laevis chromosomes., Krylov V, Mácha J, Tlapáková T, Takác M, Jonák J., Cytogenet Genome Res. January 1, 2003; 103 (1-2): 169-72.

Evolution of heat shock protein and immunity., Robert J., Dev Comp Immunol. January 1, 2003; 27 (6-7): 449-64.

A single cdk inhibitor, p27Xic1, functions beyond cell cycle regulation to promote muscle differentiation in Xenopus., Vernon AE, Philpott A., Development. January 1, 2003; 130 (1): 71-83.            

Larval antigen molecules recognized by adult immune cells of inbred Xenopus laevis: partial characterization and implication in metamorphosis., Izutsu Y, Tochinai S, Maéno M, Iwabuchi K, Onoé K., Dev Growth Differ. December 1, 2002; 44 (6): 477-88.            

Xenopus bagpipe-related gene, koza, may play a role in regulation of cell proliferation., Newman CS, Krieg PA., Dev Dyn. December 1, 2002; 225 (4): 571-80.    

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.

Developmentally modulated cardiac conduction failure in transgenic mice with fetal or postnatal overexpression of DNA nonbinding mutant Nkx2.5., Wakimoto H, Kasahara H, Maguire CT, Izumo S, Berul CI., J Cardiovasc Electrophysiol. July 1, 2002; 13 (7): 682-8.

Cardiac specific expression of Xenopus Popeye-1., Hitz MP, Pandur P, Brand T, Kühl M., Mech Dev. July 1, 2002; 115 (1-2): 123-6.    

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.

Two myogenin-related genes are differentially expressed in Xenopus laevis myogenesis and differ in their ability to transactivate muscle structural genes., Charbonnier F, Gaspera BD, Armand AS, Van der Laarse WJ, Launay T, Becker C, Gallien CL, Chanoine C., J Biol Chem. January 11, 2002; 277 (2): 1139-47.              

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.

The small muscle-specific protein Csl modifies cell shape and promotes myocyte fusion in an insulin-like growth factor 1-dependent manner., Palmer S, Groves N, Schindeler A, Yeoh T, Biben C, Wang CC, Sparrow DB, Barnett L, Jenkins NA, Copeland NG, Koentgen F, Mohun T, Harvey RP., J Cell Biol. May 28, 2001; 153 (5): 985-98.                    

In vitro thymocyte differentiation in MHC class I-negative Xenopus larvae., Robert J, Sung M, Cohen N., Dev Comp Immunol. May 1, 2001; 25 (4): 323-36.

Major histocompatibility complex and immunoglobulin loci visualized by in situ hybridization on Xenopus chromosomes., Courtet M, Flajnik M, Du Pasquier L., Dev Comp Immunol. March 1, 2001; 25 (2): 149-57.

Wnt antagonism initiates cardiogenesis in Xenopus laevis., Schneider VA, Mercola M., Genes Dev. February 1, 2001; 15 (3): 304-15.        

Serrate and Notch specify cell fates in the heart field by suppressing cardiomyogenesis., Rones MS, McLaughlin KA, Raffin M, Mercola M., Development. September 1, 2000; 127 (17): 3865-76.                  

Larval antigen molecules recognized by adult immune cells of inbred Xenopus laevis: two pathways for recognition by adult splenic T cells., Izutsu Y, Tochinai S, Iwabuchi K, Onoè K., Dev Biol. May 15, 2000; 221 (2): 365-74.          

Xenopus NK cells identified by novel monoclonal antibodies., Horton TL, Minter R, Stewart R, Ritchie P, Watson MD, Horton JD., Eur J Immunol. February 1, 2000; 30 (2): 604-13.

Two ancient allelic lineages at the single classical class I locus in the Xenopus MHC., Flajnik MF, Ohta Y, Greenberg AS, Salter-Cid L, Carrizosa A, Du Pasquier L, Kasahara M., J Immunol. October 1, 1999; 163 (7): 3826-33.

Axolotl MHC architecture and polymorphism., Sammut B, Du Pasquier L, Ducoroy P, Laurens V, Marcuz A, Tournefier A., Eur J Immunol. September 1, 1999; 29 (9): 2897-907.

Expression of immediate early genes, GATA-4, and Nkx-2.5 in adrenergic-induced cardiac hypertrophy and during regression in adult mice., Saadane N, Alpert L, Chalifour LE., Br J Pharmacol. July 1, 1999; 127 (5): 1165-76.

Duplication and MHC linkage of the CTX family of genes in Xenopus and in mammals., Du Pasquier L, Courtet M, Chrétien I., Eur J Immunol. May 1, 1999; 29 (5): 1729-39.

Disruption of actin-myosin interactions results in the inhibition of focal adhesion assembly in Xenopus XR1 glial cells., Folsom TD, Sakaguchi DS., Glia. May 1, 1999; 26 (3): 245-59.

In vitro differentiation of a CD4/CD8 double-positive equivalent thymocyte subset in adult Xenopus., Robert J, Cohen N., Int Immunol. April 1, 1999; 11 (4): 499-508.

Insight into the primordial MHC from studies in ectothermic vertebrates., Flajnik MF, Ohta Y, Namikawa-Yamada C, Nonaka M., Immunol Rev. February 1, 1999; 167 59-67.

Structure of MHC class I and class II cDNAs and possible immunodeficiency linked to class II expression in the Mexican axolotl., Tournefier A, Laurens V, Chapusot C, Ducoroy P, Padros MR, Salvadori F, Sammut B., Immunol Rev. December 1, 1998; 166 259-77.

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