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Summary Expression Gene Literature (67) GO Terms (6) Nucleotides (569) Proteins (22) Interactants (476) Wiki
XB--1032977

Papers associated with cdknx (and morpholino)

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Results 1 - 10 of 19 results

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Pou5f3.2-induced proliferative state of embryonic cells during gastrulation of Xenopus laevis embryo.
Nishitani E, Li C, Lee J, Hotta H, Katayama Y, Yamaguchi M, Kinoshita T.
Dev Growth Differ. December 1, 2015; 57 (9): 591-600.

The phosphorylation status of Ascl1 is a key determinant of neuronal differentiation and maturation in vivo and in vitro.
Ali FR, Cheng K, Kirwan P, Metcalfe S, Livesey FJ, Barker RA, Philpott A.
Development. June 1, 2014; 141 (11): 2216-24.

Using myc genes to search for stem cells in the ciliary margin of the Xenopus retina.
Xue XY, Harris WA.
Dev Neurobiol. April 1, 2012; 72 (4): 475-90.

Cell cycle-regulated multi-site phosphorylation of Neurogenin 2 coordinates cell cycling with differentiation during neurogenesis.
Ali F, Hindley C, McDowell G, Deibler R, Jones A, Kirschner M, Guillemot F, Philpott A.
Development. October 1, 2011; 138 (19): 4267-77.

MicroRNA-9 reveals regional diversity of neural progenitors along the anterior-posterior axis.
Bonev B, Pisco A, Papalopulu N.
Dev Cell. January 18, 2011; 20 (1): 19-32.

Yes-associated protein 65 (YAP) expands neural progenitors and regulates Pax3 expression in the neural plate border zone.
Gee ST, Milgram SL, Kramer KL, Conlon FL, Moody SA.
PLoS One. January 1, 2011; 6 (6): e20309.

Sumoylation controls retinal progenitor proliferation by repressing cell cycle exit in Xenopus laevis.
Terada K, Furukawa T.
Dev Biol. November 1, 2010; 347 (1): 180-94.

Normal levels of p27 are necessary for somite segmentation and determining pronephric organ size.
Naylor RW, Collins RJ, Philpott A, Jones EA.
Organogenesis. October 1, 2009; 5 (4): 119-28.

Normal levels of p27 are necessary for somite segmentation and determining pronephric organ size.
Naylor RW, Collins RJ, Philpott A, Jones EA.
Organogenesis. October 1, 2009; 5 (4): 201-10.

Cardiac differentiation in Xenopus requires the cyclin-dependent kinase inhibitor, p27Xic1.
Movassagh M, Philpott A.
Cardiovasc Res. August 1, 2008; 79 (3): 436-47.

Eya1 and Six1 promote neurogenesis in the cranial placodes in a SoxB1-dependent fashion.
Schlosser G, Awtry T, Brugmann SA, Jensen ED, Neilson K, Ruan G, Stammler A, Voelker D, Yan B, Zhang C, Klymkowsky MW, Moody SA.
Dev Biol. August 1, 2008; 320 (1): 199-214.

A role for GPRx, a novel GPR3/6/12-related G-protein coupled receptor, in the maintenance of meiotic arrest in Xenopus laevis oocytes.
Ríos-Cardona D, Ricardo-González RR, Chawla A, Ferrell JE.
Dev Biol. May 1, 2008; 317 (1): 380-8.

Xenopus hairy2 functions in neural crest formation by maintaining cells in a mitotic and undifferentiated state.
Nagatomo K, Hashimoto C.
Dev Dyn. June 1, 2007; 236 (6): 1475-83.

Mxi1 is essential for neurogenesis in Xenopus and acts by bridging the pan-neural and proneural genes.
Klisch TJ, Souopgui J, Juergens K, Rust B, Pieler T, Henningfeld KA.
Dev Biol. April 15, 2006; 292 (2): 470-85.

Inhibition of neurogenesis by SRp38, a neuroD-regulated RNA-binding protein.
Liu KJ, Liu KJ, Harland RM.
Development. April 1, 2005; 132 (7): 1511-23.

Role of TSC-22 during early embryogenesis in Xenopus laevis.
Hashiguchi A, Okabayashi K, Asashima M.
Dev Growth Differ. December 1, 2004; 46 (6): 535-44.

Regulation of vertebrate eye development by Rx genes.
Bailey TJ, El-Hodiri H, Zhang L, Shah R, Mathers PH, Jamrich M.
Int J Dev Biol. January 1, 2004; 48 (8-9): 761-70.

Xrx1 controls proliferation and neurogenesis in Xenopus anterior neural plate.
Andreazzoli M, Gestri G, Cremisi F, Casarosa S, Dawid IB, Barsacchi G.
Development. November 1, 2003; 130 (21): 5143-54.

Depletion of the cell-cycle inhibitor p27(Xic1) impairs neuronal differentiation and increases the number of ElrC(+) progenitor cells in Xenopus tropicalis.
Carruthers S, Mason J, Papalopulu N.
Mech Dev. May 1, 2003; 120 (5): 607-16.

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