Papers associated with krt18.1

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	Xenopus endo B is a keratin preferentially expressed in the embryonic notochord., LaFlamme SE, Jamrich M, Richter K, Sargent TD, Dawid IB., Genes Dev. July 1, 1988; 2 (7): 853-62.
	Differential keratin gene expression during the differentiation of the cement gland of Xenopus laevis., LaFlamme SE, Dawid IB., Dev Biol. February 1, 1990; 137 (2): 414-8.
	XK endo B is preferentially expressed in several induced embryonic tissues during the development of Xenopus laevis., LaFlamme SE, Dawid IB., Differentiation. March 1, 1990; 43 (1): 1-9.
	Tailless keratins assemble into regular intermediate filaments in vitro., Hatzfeld M, Weber K., J Cell Sci. October 1, 1990; 97 ( Pt 2) 317-24.
	Analysis of Xwnt-4 in embryos of Xenopus laevis: a Wnt family member expressed in the brain and floor plate., McGrew LL, Otte AP, Moon RT., Development. June 1, 1992; 115 (2): 463-73.
	Function of type I and type II keratin head domains: their role in dimer, tetramer and filament formation., Hatzfeld M, Burba M., J Cell Sci. July 1, 1994; 107 ( Pt 7) 1959-72.
	Differential display analysis of gene expression in developing embryos of Xenopus laevis., Adati N, Ito T, Koga C, Kito K, Sakaki Y, Shiokawa K., Biochim Biophys Acta. May 17, 1995; 1262 (1): 43-51.
	Gene expression screening in Xenopus identifies molecular pathways, predicts gene function and provides a global view of embryonic patterning., Gawantka V, Pollet N, Delius H, Vingron M, Pfister R, Nitsch R, Blumenstock C, Niehrs C., Mech Dev. October 1, 1998; 77 (2): 95-141.
	The roles of APC and Axin derived from experimental and theoretical analysis of the Wnt pathway., Lee E, Lee E, Salic A, Krüger R, Heinrich R, Kirschner MW., PLoS Biol. October 1, 2003; 1 (1): E10.
	Structure-function relations of the first and fourth extracellular linkers of the type IIa Na+/Pi cotransporter: II. Substrate interaction and voltage dependency of two functionally important sites., Ehnes C, Forster IC, Bacconi A, Kohler K, Biber J, Murer H., J Gen Physiol. November 1, 2004; 124 (5): 489-503.
	Microarray-based identification of VegT targets in Xenopus., Taverner NV, Kofron M, Kofron M, Shin Y, Kabitschke C, Gilchrist MJ, Wylie C, Cho KW, Heasman J, Smith JC., Mech Dev. March 1, 2005; 122 (3): 333-54.
	Terrestrial vertebrates have two keratin gene clusters; striking differences in teleost fish., Zimek A, Weber K., Eur J Cell Biol. June 1, 2005; 84 (6): 623-35.
	Macroarray-based analysis of tail regeneration in Xenopus laevis larvae., Tazaki A, Kitayama A, Terasaka C, Watanabe K, Ueno N, Mochii M., Dev Dyn. August 1, 2005; 233 (4): 1394-404.
	Voltage clamp fluorometric measurements on a type II Na+-coupled Pi cotransporter: shedding light on substrate binding order., Virkki LV, Murer H, Forster IC., J Gen Physiol. May 1, 2006; 127 (5): 539-55.
	Genetic screens for mutations affecting development of Xenopus tropicalis., Goda T, Abu-Daya A, Carruthers S, Clark MD, Stemple DL, Zimmerman LB., PLoS Genet. June 1, 2006; 2 (6): e91.
	Identification of genes associated with regenerative success of Xenopus laevis hindlimbs., Pearl EJ, Barker D, Day RC, Beck CW., BMC Dev Biol. June 23, 2008; 8 66.
	Maternal Interferon Regulatory Factor 6 is required for the differentiation of primary superficial epithelia in Danio and Xenopus embryos., Sabel JL, d'Alençon C, O'Brien EK, Van Otterloo E, Lutz K, Cuykendall TN, Schutte BC, Houston DW, Cornell RA., Dev Biol. January 1, 2009; 325 (1): 249-62.
	Neuronatin promotes neural lineage in ESCs via Ca(2+) signaling., Lin HH, Bell E, Uwanogho D, Perfect LW, Noristani H, Bates TJ, Snetkov V, Price J, Sun YM., Stem Cells. November 1, 2010; 28 (11): 1950-60.
	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.
	Unique gene expression profile of the proliferating Xenopus tadpole tail blastema cells deciphered by RNA-sequencing analysis., Tsujioka H, Kunieda T, Katou Y, Shirahige K, Kubo T., PLoS One. January 1, 2015; 10 (3): e0111655.
	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.
	Structure of the Dnmt1 Reader Module Complexed with a Unique Two-Mono-Ubiquitin Mark on Histone H3 Reveals the Basis for DNA Methylation Maintenance., Ishiyama S, Nishiyama A, Saeki Y, Moritsugu K, Morimoto D, Yamaguchi L, Arai N, Matsumura R, Kawakami T, Mishima Y, Hojo H, Shimamura S, Ishikawa F, Tajima S, Tanaka K, Ariyoshi M, Shirakawa M, Ikeguchi M, Kidera A, Suetake I, Arita K, Nakanishi M., Mol Cell. October 19, 2017; 68 (2): 350-360.e7.
	Identification of estrogen receptor target genes involved in gonadal feminization caused by estrogen in Xenopus laevis., Li Y, Li J, Shen Y, Xiong Y, Li X, Qin Z., Aquat Toxicol. January 21, 2021; 232 105760.
	A single-cell, time-resolved profiling of Xenopus mucociliary epithelium reveals nonhierarchical model of development., Lee J, Møller AF, Chae S, Bussek A, Park TJ, Kim Y, Lee HS, Pers TH, Kwon T, Sedzinski J, Natarajan KN., Sci Adv. April 7, 2023; 9 (14): eadd5745.
	Post-infection treatment with the E protein inhibitor BIT225 reduces disease severity and increases survival of K18-hACE2 transgenic mice infected with a lethal dose of SARS-CoV-2., Ewart G, Bobardt M, Bentzen BH, Yan Y, Thomson A, Klumpp K, Becker S, Rosenkilde MM, Miller M, Gallay P., PLoS Pathog. August 1, 2023; 19 (8): e1011328.
	Evolutionary origin of Hoxc13-dependent skin appendages in amphibians., Carron M, Sachslehner AP, Cicekdal MB, Bruggeman I, Demuynck S, Golabi B, De Baere E, Declercq W, Tschachler E, Vleminckx K, Eckhart L., Nat Commun. March 18, 2024; 15 (1): 2328.

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