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Summary Expression Phenotypes Gene Literature (15) GO Terms (10) Nucleotides (404) Proteins (51) Interactants (189) Wiki
XB--488501

Papers associated with mdk

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CRISPR-SID: Identifying EZH2 as a druggable target for desmoid tumors via in vivo dependency mapping., Naert T, Tulkens D, Van Nieuwenhuysen T, Przybyl J, Demuynck S, van de Rijn M, Al-Jazrawe M, Alman BA, Coucke PJ, De Leeneer K, Vanhove C, Savvides SN, Creytens D, Vleminckx K, Vleminckx K., Proc Natl Acad Sci U S A. November 23, 2021; 118 (47):                             


Maximizing CRISPR/Cas9 phenotype penetrance applying predictive modeling of editing outcomes in Xenopus and zebrafish embryos., Naert T, Tulkens D, Edwards NA, Carron M, Shaidani NI, Wlizla M, Boel A, Demuynck S, Horb ME, Coucke P, Willaert A, Zorn AM, Vleminckx K, Vleminckx K., Sci Rep. January 1, 2020; 10 (1): 14662.                      


Cell type-specific transcriptome analysis unveils secreted signaling molecule genes expressed in apical epithelial cap during appendage regeneration., Okumura A, Hayashi T, Ebisawa M, Yoshimura M, Sasagawa Y, Nikaido I, Umesono Y, Mochii M., Dev Growth Differ. December 1, 2019; 61 (9): 447-456.                


Midkine in repair of the injured nervous system., Yoshida Y, Sakakima H, Matsuda F, Ikutomo M., Br J Pharmacol. February 1, 2014; 171 (4): 924-30.  


Midkine and pleiotrophin have bactericidal properties: preserved antibacterial activity in a family of heparin-binding growth factors during evolution., Svensson SL, Pasupuleti M, Walse B, Malmsten M, Mörgelin M, Sjögren C, Olin AI, Collin M, Schmidtchen A, Palmer R, Egesten A., J Biol Chem. May 21, 2010; 285 (21): 16105-15.


Identification of embryonic pancreatic genes using Xenopus DNA microarrays., Hayata T, Blitz IL, Iwata N, Cho KW., Dev Dyn. June 1, 2009; 238 (6): 1455-66.      


Structural and functional changes of sulfated glycosaminoglycans in Xenopus laevis during embryogenesis., Yamada S, Onishi M, Fujinawa R, Tadokoro Y, Okabayashi K, Asashima M, Sugahara K., Glycobiology. May 1, 2009; 19 (5): 488-98.


The midkine family in cancer, inflammation and neural development., Kadomatsu K., Nagoya J Med Sci. June 1, 2005; 67 (3-4): 71-82.


Global analysis of RAR-responsive genes in the Xenopus neurula using cDNA microarrays., Arima K, Shiotsugu J, Niu R, Khandpur R, Martinez M, Shin Y, Koide T, Cho KW, Kitayama A, Ueno N, Chandraratna RA, Blumberg B., Dev Dyn. February 1, 2005; 232 (2): 414-31.                          


Midkine and pleiotrophin in neural development and cancer., Kadomatsu K, Muramatsu T., Cancer Lett. February 20, 2004; 204 (2): 127-43.


Midkine counteracts the activin signal in mesoderm induction and promotes neural formation., Yokota C, Takahashi S, Eisaki A, Asashima M, Akhter S, Muramatsu T, Kadomatsu K., J Biochem. February 1, 1998; 123 (2): 339-46.


A role of midkine in the development of the neuromuscular junction., Zhou H, Muramatsu T, Halfter W, Tsim KW, Peng HB., Mol Cell Neurosci. January 1, 1997; 10 (1-2): 56-70.


Developmental and differential regulations in gene expression of Xenopus pleiotrophic factors-alpha and -beta., Tsujimura A, Yasojima K, Kuboki Y, Suzuki A, Ueno N, Shiokawa K, Hashimoto-Gotoh T., Biochem Biophys Res Commun. September 14, 1995; 214 (2): 432-9.              


Restricted expression of Xenopus midkine gene during early development., Sekiguchi K, Yokota C, Asashima M, Kaname T, Fan QW, Muramatsu T, Kadomatsu K., J Biochem. July 1, 1995; 118 (1): 94-100.


Cloning and sequence of the Xenopus laevis homologue of the midkine cDNA., Fu C, Maminta-Smith LD, Guo C, Deuel TF., Gene. September 2, 1994; 146 (2): 311-2.

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