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Summary Anatomy Item Literature (2349) Expression Attributions Wiki
XB-ANAT-4083

Papers associated with tadpole (and myh6)

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Larval T Cells Are Functionally Distinct from Adult T Cells in Xenopus laevis., Paiola M., Immunohorizons. October 1, 2023; 7 (10): 696-707.                

Inducible and tissue-specific cell labeling in Cre-ERT2 transgenic Xenopus lines., Lin TY., Dev Growth Differ. June 1, 2022; 64 (5): 243-253.        

Developmental exposure to thyroid disrupting chemical mixtures alters metamorphosis and post-metamorphic thymocyte differentiation., McGuire CC., Curr Res Toxicol. January 1, 2022; 3 100094.

A systemic cell cycle block impacts stage-specific histone modification profiles during Xenopus embryogenesis., Pokrovsky D., PLoS Biol. September 1, 2021; 19 (9): e3001377.                        

The myeloid lineage is required for the emergence of a regeneration-permissive environment following Xenopus tail amputation., Aztekin C., Development. February 5, 2020; 147 (3):                                     

Expression Changes of MHC and Other Immune Genes in Frog Skin during Ontogeny., Lau Q., Animals (Basel). January 6, 2020; 10 (1):         

Loss of function of Kmt2d, a gene mutated in Kabuki syndrome, affects heart development in Xenopus laevis., Schwenty-Lara J., Dev Dyn. June 1, 2019; 248 (6): 465-476.                  

Critical Role of an MHC Class I-Like/Innate-Like T Cell Immune Surveillance System in Host Defense against Ranavirus (Frog Virus 3) Infection., Edholm EI., Viruses. April 6, 2019; 11 (4):                 

A Xenopus tadpole alternative model to study innate-like T cell-mediated anti-mycobacterial immunity., Hyoe RK., Dev Comp Immunol. March 1, 2019; 92 253-259.

Distinct MHC class I-like interacting invariant T cell lineage at the forefront of mycobacterial immunity uncovered in Xenopus., Edholm ES., Proc Natl Acad Sci U S A. April 24, 2018; 115 (17): E4023-E4031.          

Exploring the functions of nonclassical MHC class Ib genes in Xenopus laevis by the CRISPR/Cas9 system., Banach M., Dev Biol. June 15, 2017; 426 (2): 261-269.          

Analysis of Craniocardiac Malformations in Xenopus using Optical Coherence Tomography., Deniz E., Sci Rep. February 14, 2017; 7 42506.          

A prominent role for invariant T cells in the amphibian Xenopus laevis tadpoles., Robert J., Immunogenetics. October 1, 2014; 66 (9-10): 513-23.

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

Wiring the retinal circuits activated by light during early development., Bertolesi GE., Neural Dev. February 13, 2014; 9 3.              

Early development of the thymus in Xenopus laevis., Lee YH, Lee YH., Dev Dyn. February 1, 2013; 242 (2): 164-78.                            

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

Rare copy number variations in congenital heart disease patients identify unique genes in left-right patterning., Fakhro KA., Proc Natl Acad Sci U S A. February 15, 2011; 108 (7): 2915-20.                      

Early cardiac morphogenesis defects caused by loss of embryonic macrophage function in Xenopus., Smith SJ., Mech Dev. January 1, 2011; 128 (5-6): 303-15.                            

Focal adhesion kinase is essential for cardiac looping and multichamber heart formation., Doherty JT., Genesis. August 1, 2010; 48 (8): 492-504.                  

The BMP pathway acts to directly regulate Tbx20 in the developing heart., Mandel EM., Development. June 1, 2010; 137 (11): 1919-29.                  

Absence of heartbeat in the Xenopus tropicalis mutation muzak is caused by a nonsense mutation in cardiac myosin myh6., Abu-Daya A., Dev Biol. December 1, 2009; 336 (1): 20-9.            

The keratin-related Ouroboros proteins function as immune antigens mediating tail regression in Xenopus metamorphosis., Mukaigasa K., Proc Natl Acad Sci U S A. October 27, 2009; 106 (43): 18309-14.      

In vitro organogenesis from undifferentiated cells in Xenopus., Asashima M., Dev Dyn. June 1, 2009; 238 (6): 1309-20.                      

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

Vertebrate CASTOR is required for differentiation of cardiac precursor cells at the ventral midline., Christine KS., Dev Cell. April 1, 2008; 14 (4): 616-23.                                

A role of D domain-related proteins in differentiation and migration of embryonic cells in Xenopus laevis., Shibata T., Mech Dev. January 1, 2008; 125 (3-4): 284-98.                            

Myoskeletin, a factor related to Myocardin, is expressed in somites and required for hypaxial muscle formation in Xenopus., Zhao H., Int J Dev Biol. January 1, 2007; 51 (4): 315-20.              

Xtn3 is a developmentally expressed cardiac and skeletal muscle-specific novex-3 titin isoform., Brown DD., Gene Expr Patterns. October 1, 2006; 6 (8): 913-8.          

TBX5 is required for embryonic cardiac cell cycle progression., Goetz SC., Development. July 1, 2006; 133 (13): 2575-84.                

Genetic screens for mutations affecting development of Xenopus tropicalis., Goda T., PLoS Genet. June 1, 2006; 2 (6): e91.                        

p38 MAP kinase regulates the expression of XMyf5 and affects distinct myogenic programs during Xenopus development., Keren A., Dev Biol. December 1, 2005; 288 (1): 73-86.              

The MLC1v gene provides a transgenic marker of myocardium formation within developing chambers of the Xenopus heart., Smith SJ., Dev Dyn. April 1, 2005; 232 (4): 1003-12.            

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

Expression of MHC class Ia and class Ib during ontogeny: high expression in epithelia and coregulation of class Ia and lmp7 genes., Salter-Cid L., J Immunol. March 15, 1998; 160 (6): 2853-61.

Involvement of thyroid hormones in the expression of MHC class I antigens during ontogeny in Xenopus., Rollins-Smith LA., Dev Immunol. January 1, 1997; 5 (2): 133-44.

Ontogeny of the alloimmune response against a transplanted tumor in Xenopus laevis., Robert J., Differentiation. October 1, 1995; 59 (3): 135-44.

Cardiac myosin heavy chain expression during heart development in Xenopus laevis., Cox WG., Differentiation. April 1, 1995; 58 (4): 269-80.                

Isoform transition of contractile proteins related to muscle remodeling with an axial gradient during metamorphosis in Xenopus laevis., Nishikawa A., Dev Biol. September 1, 1994; 165 (1): 86-94.                      

Induction of cardiac muscle differentiation in isolated animal pole explants of Xenopus laevis embryos., Logan M., Development. July 1, 1993; 118 (3): 865-75.              

The MHC molecules of nonmammalian vertebrates., Kaufman J., Immunol Rev. February 1, 1990; 113 83-117.

MHC class I antigens as surface markers of adult erythrocytes during the metamorphosis of Xenopus., Flajnik MF., Dev Biol. July 1, 1988; 128 (1): 198-206.

Major histocompatibility complex-encoded class I molecules are absent in immunologically competent Xenopus before metamorphosis., Flajnik MF., J Immunol. December 15, 1986; 137 (12): 3891-9.  

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