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Summary Expression Phenotypes Gene Literature (12) GO Terms (5) Nucleotides (811) Proteins (67) Interactants (525) Wiki
XB-GENEPAGE-490359

Papers associated with krt19



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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.                                                        

14-3-3 targets keratin intermediate filaments to mechanically sensitive cell-cell contacts., Mariani RA, Paranjpe S, Dobrowolski R, Weber GF., Mol Biol Cell. April 15, 2020; 31 (9): 930-943.              

Molecular markers for corneal epithelial cells in larval vs. adult Xenopus frogs., Sonam S, Srnak JA, Perry KJ, Henry JJ., Exp Eye Res. July 1, 2019; 184 107-125.                        

Transcriptome profiling reveals male- and female-specific gene expression pattern and novel gene candidates for the control of sex determination and gonad development in Xenopus laevis., Piprek RP, Damulewicz M, Tassan JP, Kloc M, Kubiak JZ., Dev Genes Evol. May 1, 2019; 229 (2-3): 53-72.        

Transcriptome analysis of regeneration during Xenopus laevis experimental twinning., Sosa EA, Moriyama Y, Ding Y, Tejeda-Muñoz N, Colozza G, De Robertis EM., Int J Dev Biol. January 1, 2019; 63 (6-7): 301-309.

The Lhx1-Ldb1 complex interacts with Furry to regulate microRNA expression during pronephric kidney development., Espiritu EB, Crunk AE, Bais A, Hochbaum D, Cervino AS, Phua YL, Butterworth MB, Goto T, Ho J, Hukriede NA, Cirio MC., Sci Rep. October 30, 2018; 8 (1): 16029.                                      

Morphological and transcriptomic analyses reveal three discrete primary stages of postembryonic development in the common fire salamander, Salamandra salamandra., Sanchez E, Küpfer E, Goedbloed DJ, Nolte AW, Lüddecke T, Schulz S, Vences M, Steinfartz S., J Exp Zool B Mol Dev Evol. March 1, 2018; 330 (2): 96-108.

Clustered Xenopus keratin genes: A genomic, transcriptomic, and proteomic analysis., Suzuki KT, Suzuki M, Suzuki M, Shigeta M, Fortriede JD, Takahashi S, Mawaribuchi S, Yamamoto T, Taira M, Fukui A., Dev Biol. June 15, 2017; 426 (2): 384-392.

Measuring Absolute RNA Copy Numbers at High Temporal Resolution Reveals Transcriptome Kinetics in Development., Owens ND, Blitz IL, Lane MA, Patrushev I, Overton JD, Gilchrist MJ, Cho KW, Khokha MK., Cell Rep. January 26, 2016; 14 (3): 632-47.                                                  

Proteomic analysis of fibroblastema formation in regenerating hind limbs of Xenopus laevis froglets and comparison to axolotl., Rao N, Song F, Jhamb D, Wang M, Milner DJ, Price NM, Belecky-Adams TL, Palakal MJ, Cameron JA, Li B, Chen X, Stocum DL., BMC Dev Biol. July 25, 2014; 14 32.                        

Thyroid hormone-regulated Wnt5a/Ror2 signaling is essential for dedifferentiation of larval epithelial cells into adult stem cells in the Xenopus laevis intestine., Ishizuya-Oka A, Kajita M, Hasebe T., PLoS One. January 1, 2014; 9 (9): e107611.                            

Characterization of a novel type I keratin gene and generation of transgenic lines with fluorescent reporter genes driven by its promoter/enhancer in Xenopus laevis., Suzuki KT, Kashiwagi K, Ujihara M, Marukane T, Tazaki A, Watanabe K, Mizuno N, Ueda Y, Kondoh H, Kashiwagi A, Mochii M., Dev Dyn. December 1, 2010; 239 (12): 3172-81.                  

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