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Summary Expression Phenotypes Gene Literature (23) GO Terms (2) Nucleotides (279) Proteins (41) Interactants (474) Wiki
XB--991814

Papers associated with zfp36



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RNA localization during early development of the axolotl., Šimková K, Naraine R, Vintr J, Soukup V, Šindelka R., Front Cell Dev Biol. January 1, 2023; 11 1260795.                        

HMCES modulates the transcriptional regulation of nodal/activin and BMP signaling in mESCs., Liang T, Bai J, Zhou W, Lin H, Ma S, Zhu X, Tao Q, Xi Q., Cell Rep. July 12, 2022; 40 (2): 111038.                              

Leukemia inhibitory factor signaling in Xenopus embryo: Insights from gain of function analysis and dominant negative mutant of the receptor., Jalvy S, Veschambre P, Fédou S, Rezvani HR, Thézé N, Thiébaud P., Dev Biol. March 15, 2019; 447 (2): 200-213.                                  

Novel phosphorelay-dependent control of ZFP36L1 protein during the cell cycle., Kondo M, Noguchi A, Matsuura Y, Shimada M, Yokota N, Kawahara H., Biochem Biophys Res Commun. June 22, 2018; 501 (2): 387-393.        

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.            

Selective modulation of cellular voltage-dependent calcium channels by hyperbaric pressure-a suggested HPNS partial mechanism., Aviner B, Gradwohl G, Mor Aviner M, Levy S, Grossman Y., Front Cell Neurosci. May 27, 2014; 8 136.                    

zfp36 expression delineates both myeloid cells and cells localized to the fusing neural folds in Xenopus tropicalis., Noiret M, Hardy S, Audic Y., Int J Dev Biol. January 1, 2014; 58 (10-12): 751-5.                

Comparative Functional Analysis of ZFP36 Genes during Xenopus Development., Tréguer K, Faucheux C, Veschambre P, Fédou S, Thézé N, Thiébaud P., PLoS One. January 1, 2013; 8 (1): e54550.                          

Involvement of XZFP36L1, an RNA-binding protein, in Xenopus neural development., Xia YJ, Zhao SH, Mao BY., Dongwuxue Yanjiu. December 1, 2012; 33 (E5-6): E82-8.                

Origin-dependent initiation of DNA replication within telomeric sequences., Kurth I, Gautier J., Nucleic Acids Res. January 1, 2010; 38 (2): 467-76.          

Biochemical reconstitution of abasic DNA lesion replication in Xenopus extracts., Liao S, Matsumoto Y, Yan H., Nucleic Acids Res. January 1, 2007; 35 (16): 5422-9.            

Analysis of the Xenopus Werner syndrome protein in DNA double-strand break repair., Yan H, McCane J, Toczylowski T, Chen C., J Cell Biol. October 24, 2005; 171 (2): 217-27.              

Temporal regulation of global gene expression and cellular morphology in Xenopus kidney cells in response to clinorotation., Kitamoto J, Fukui A, Asashima M., Adv Space Res. January 1, 2005; 35 (9): 1654-61.

Phosphorylation of stem-loop binding protein (SLBP) on two threonines triggers degradation of SLBP, the sole cell cycle-regulated factor required for regulation of histone mRNA processing, at the end of S phase., Zheng L, Dominski Z, Yang XC, Elms P, Raska CS, Borchers CH, Marzluff WF., Mol Cell Biol. March 1, 2003; 23 (5): 1590-601.

TTP, a C3H zinc finger protein gene, is expressed in mouse ovarian oocytes., te Kronnie G, Samallo J, Schipper H, Stroband HW., Dev Genes Evol. May 1, 2001; 211 (5): 261-2.

Evidence for a replication function of FFA-1, the Xenopus orthologue of Werner syndrome protein., Chen CY, Graham J, Yan H., J Cell Biol. March 5, 2001; 152 (5): 985-96.                

Interactions of CCCH zinc finger proteins with mRNA. Binding of tristetraprolin-related zinc finger proteins to Au-rich elements and destabilization of mRNA., Lai WS, Carballo E, Thorn JM, Kennington EA, Blackshear PJ., J Biol Chem. June 9, 2000; 275 (23): 17827-37.

Identification of four CCCH zinc finger proteins in Xenopus, including a novel vertebrate protein with four zinc fingers and severely restricted expression., De J, Lai WS, Thorn JM, Goldsworthy SM, Liu X, Blackwell TK, Blackshear PJ., Gene. March 4, 1999; 228 (1-2): 133-45.                  

Characteristics of ecto-ATPase of Xenopus oocytes and the inhibitory actions of suramin on ATP breakdown., Ziganshin AU, Ziganshina LE, King BE, Burnstock G., Pflugers Arch. January 1, 1995; 429 (3): 412-8.

Xenopus laevis ovarian DNA helicase I: A 3' to 5' helicase that unwinds short duplexes., Poll EH, Harrison J, Umthun A, Dobbs DL, Benbow RM., Biochemistry. April 5, 1994; 33 (13): 3841-7.

DNA synthesis in isolated resting nuclei: evidence for protease-dependent nonreplicative nucleotide incorporation., Jensen TL, O'Leary JJ., Exp Cell Res. September 1, 1990; 190 (1): 85-90.

2'-Fluoro-2'-deoxypolynucleotides as templates and inhibitors for RNA- and DNA-dependent DNA polymerases., Aoyama H, Sarih-Cottin L, Tarrago-Litvak L, Kakiuchi N, Litvak S, Guschlbauer W., Biochim Biophys Acta. March 20, 1985; 824 (3): 225-32.

Nuclear-cytoplasmic interactions affecting DNA synthesis during induced cardiac muscle growth in the rat., Bugaisky LB, Rabinowitz M, Zak R., Cardiovasc Res. February 1, 1985; 19 (2): 89-94.

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