Papers associated with rpe

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	Disrupted ER membrane protein complex-mediated topogenesis drives congenital neural crest defects., Marquez J, Criscione J, Charney RM, Prasad MS, Hwang WY, Mis EK, García-Castro MI, Khokha MK., J Clin Invest. February 3, 2020; 130 (2): 813-826.
	Bioinformatics Screening of Genes Specific for Well-Regenerating Vertebrates Reveals c-answer, a Regulator of Brain Development and Regeneration., Korotkova DD, Lyubetsky VA, Ivanova AS, Rubanov LI, Seliverstov AV, Zverkov OA, Martynova NY, Nesterenko AM, Tereshina MB, Peshkin L, Zaraisky AG., Cell Rep. October 22, 2019; 29 (4): 1027-1040.e6.
	BAP1 regulates epigenetic switch from pluripotency to differentiation in developmental lineages giving rise to BAP1-mutant cancers., Kuznetsov JN, Aguero TH, Owens DA, Kurtenbach S, Field MG, Durante MA, Rodriguez DA, King ML, Harbour JW., Sci Adv. September 18, 2019; 5 (9): eaax1738.
	Jmjd6a regulates GSK3β RNA splicing in Xenopus laevis eye development., Shin JY, Son J, Kim WS, Gwak J, Ju BG., PLoS One. July 30, 2019; 14 (7): e0219800.
	Spindle-F-actin interactions in mitotic spindles in an intact vertebrate epithelium., Kita AM, Swider ZT, Erofeev I, Halloran MC, Goryachev AB, Bement WM., Mol Biol Cell. July 1, 2019; 30 (14): 1645-1654.
	Electrophysiological Changes During Early Steps of Retinitis Pigmentosa., Bocchero U, Tam BM, Chiu CN, Torre V, Moritz OL., Invest Ophthalmol Vis Sci. March 1, 2019; 60 (4): 933-943.
	Importin α Partitioning to the Plasma Membrane Regulates Intracellular Scaling., Brownlee C, Heald R., Cell. February 7, 2019; 176 (4): 805-815.e8.
	Xenopus slc7a5 is essential for notochord function and eye development., Katada T, Sakurai H., Mech Dev. February 1, 2019; 155 48-59.
	Class A Scavenger Receptors Are Used by Frog Virus 3 During Its Cellular Entry., Vo NTK, Guerreiro M, Yaparla A, Grayfer L, DeWitte-Orr SJ., Viruses. January 23, 2019; 11 (2):
	Using the Xenopus Developmental Eye Regrowth System to Distinguish the Role of Developmental Versus Regenerative Mechanisms., Kha CX, Guerin DJ, Tseng KA., Front Physiol. January 1, 2019; 10 502.
	Fam46a regulates BMP-dependent pre-placodal ectoderm differentiation in Xenopus., Watanabe T, Yamamoto T, Tsukano K, Hirano S, Horikawa A, Michiue T., Development. October 26, 2018; 145 (20):
	WDR5 Stabilizes Actin Architecture to Promote Multiciliated Cell Formation., Kulkarni SS, Griffin JN, Date PP, Liem KF, Khokha MK., Dev Cell. September 10, 2018; 46 (5): 595-610.e3.
	Nosip functions during vertebrate eye and cranial cartilage development., Flach H, Krieg J, Hoffmeister M, Dietmann P, Reusch A, Wischmann L, Kernl B, Riegger R, Oess S, Kühl SJ., Dev Dyn. September 1, 2018; 247 (9): 1070-1082.
	ATP activates bestrophin ion channels through direct interaction., Zhang Y, Kittredge A, Ward N, Ji C, Chen S, Yang T., Nat Commun. August 7, 2018; 9 (1): 3126.
	A wide variety of Mitf transcript variants are expressed in the Xenopus laevis periodic albino mutant., Fukuzawa T., Genes Cells. June 19, 2018;
	Opn5L1 is a retinal receptor that behaves as a reverse and self-regenerating photoreceptor., Sato K, Yamashita T, Ohuchi H, Takeuchi A, Gotoh H, Ono K, Mizuno M, Mizutani Y, Tomonari S, Sakai K, Imamoto Y, Wada A, Shichida Y., Nat Commun. March 28, 2018; 9 (1): 1255.
	RAPGEF5 Regulates Nuclear Translocation of β-Catenin., Griffin JN, Del Viso F, Duncan AR, Robson A, Hwang W, Kulkarni S, Liu KJ, Liu KJ, Khokha MK., Dev Cell. January 22, 2018; 44 (2): 248-260.e4.
	A multichannel computer-driven system to raise aquatic embryos under selectable hypoxic conditions., Metikala S, Neuhaus H, Hollemann T., Hypoxia (Auckl). January 12, 2018; 6 1-9.
	An atlas of Wnt activity during embryogenesis in Xenopus tropicalis., Borday C, Parain K, Thi Tran H, Vleminckx K, Vleminckx K, Perron M, Monsoro-Burq AH., PLoS One. January 1, 2018; 13 (4): e0193606.
	Multiple Cellular Transport and Binding Processes of Unesterified Docosahexaenoic Acid in Outer Blood-Retinal Barrier Retinal Pigment Epithelial Cells., Tachikawa M, Akanuma SI, Imai T, Okayasu S, Tomohiro T, Hatanaka Y, Hosoya KI., Biol Pharm Bull. January 1, 2018; 41 (9): 1384-1392.
	Evolutionary Proteomics Uncovers Ancient Associations of Cilia with Signaling Pathways., Sigg MA, Menchen T, Lee C, Lee C, Johnson J, Jungnickel MK, Choksi SP, Garcia G, Busengdal H, Dougherty GW, Pennekamp P, Werner C, Rentzsch F, Florman HM, Krogan N, Wallingford JB, Omran H, Reiter JF., Dev Cell. December 18, 2017; 43 (6): 744-762.e11.
	Targeted Base Editing via RNA-Guided Cytidine Deaminases in Xenopus laevis Embryos., Park DS, Yoon M, Kweon J, Jang AH, Kim Y, Choi SC., Mol Cells. November 30, 2017; 40 (11): 823-827.
	Control of actin polymerization via the coincidence of phosphoinositides and high membrane curvature., Daste F, Walrant A, Holst MR, Gadsby JR, Mason J, Lee JE, Brook D, Mettlen M, Larsson E, Lee SF, Lundmark R, Gallop JL., J Cell Biol. November 6, 2017; 216 (11): 3745-3765.
	Upregulation of matrix metalloproteinase triggers transdifferentiation of retinal pigmented epithelial cells in Xenopus laevis: A Link between inflammatory response and regeneration., Naitoh H, Suganuma Y, Ueda Y, Sato T, Hiramuki Y, Fujisawa-Sehara A, Taketani S, Araki M., Dev Neurobiol. September 1, 2017; 77 (9): 1086-1100.
	Prdm13 forms a feedback loop with Ptf1a and is required for glycinergic amacrine cell genesis in the Xenopus Retina., Bessodes N, Parain K, Bronchain O, Bellefroid EJ, Perron M., Neural Dev. September 1, 2017; 12 (1): 16.
	Modeling Dominant and Recessive Forms of Retinitis Pigmentosa by Editing Three Rhodopsin-Encoding Genes in Xenopus Laevis Using Crispr/Cas9., Feehan JM, Chiu CN, Stanar P, Tam BM, Ahmed SN, Moritz OL., Sci Rep. July 31, 2017; 7 (1): 6920.
	A functional approach to understanding the role of NCKX5 in Xenopus pigmentation., Williams RM, Winkfein RJ, Ginger RS, Green MR, Schnetkamp PP, Wheeler GN., PLoS One. July 10, 2017; 12 (7): e0180465.
	Müller glia reactivity follows retinal injury despite the absence of the glial fibrillary acidic protein gene in Xenopus., Martinez-De Luna RI, Ku RY, Aruck AM, Santiago F, Viczian AS, San Mauro D, Zuber ME., Dev Biol. June 15, 2017; 426 (2): 219-235.
	no privacy, a Xenopus tropicalis mutant, is a model of human Hermansky-Pudlak Syndrome and allows visualization of internal organogenesis during tadpole development., Nakayama T, Nakajima K, Cox A, Fisher M, Fisher M, Howell M, Fish MB, Yaoita Y, Grainger RM., Dev Biol. June 15, 2017; 426 (2): 472-486.
	Frizzled 3 acts upstream of Alcam during embryonic eye development., Seigfried FA, Cizelsky W, Pfister AS, Dietmann P, Walther P, Kühl M, Kühl SJ., Dev Biol. June 1, 2017; 426 (1): 69-83.
	The Visual Cycle in the Inner Retina of Chicken and the Involvement of Retinal G-Protein-Coupled Receptor (RGR)., Díaz NM, Morera LP, Tempesti T, Guido ME., Mol Neurobiol. May 1, 2017; 54 (4): 2507-2517.
	Embryoids, organoids and gastruloids: new approaches to understanding embryogenesis., Simunovic M, Brivanlou AH., Development. March 15, 2017; 144 (6): 976-985.
	An Epha4/Sipa1l3/Wnt pathway regulates eye development and lens maturation., Rothe M, Kanwal N, Dietmann P, Seigfried FA, Hempel A, Schütz D, Reim D, Engels R, Linnemann A, Schmeisser MJ, Bockmann J, Kühl M, Boeckers TM, Kühl SJ., Development. January 15, 2017; 144 (2): 321-333.
	Seeing the future: using Xenopus to understand eye regeneration., Tseng AS., Genesis. January 1, 2017; 55 (1-2):
	Congenital Heart Disease Genetics Uncovers Context-Dependent Organization and Function of Nucleoporins at Cilia., Del Viso F, Huang F, Myers J, Chalfant M, Zhang Y, Reza N, Bewersdorf J, Lusk CP, Khokha MK., Dev Cell. September 12, 2016; 38 (5): 478-92.
	Noggin 1 overexpression in retinal progenitors affects bipolar cell generation., Messina A, Bridi S, Bozza A, Bozzi Y, Baudet ML, Casarosa S., Int J Dev Biol. January 1, 2016; 60 (4-6): 151-7.
	The Autophagy Receptor TAX1BP1 and the Molecular Motor Myosin VI Are Required for Clearance of Salmonella Typhimurium by Autophagy., Tumbarello DA, Manna PT, Allen M, Bycroft M, Arden SD, Kendrick-Jones J, Buss F., PLoS Pathog. October 1, 2015; 11 (10): e1005174.
	Kinetochore function is controlled by a phospho-dependent coexpansion of inner and outer components., Wynne DJ, Funabiki H., J Cell Biol. September 14, 2015; 210 (6): 899-916.
	Bestrophin 1 is indispensable for volume regulation in human retinal pigment epithelium cells., Milenkovic A, Brandl C, Milenkovic VM, Jendryke T, Sirianant L, Wanitchakool P, Zimmermann S, Reiff CM, Horling F, Schrewe H, Schreiber R, Kunzelmann K, Wetzel CH, Weber BH., Proc Natl Acad Sci U S A. May 19, 2015; 112 (20): E2630-9.
	COUP-TFs and eye development., Tang K, Tsai SY, Tsai MJ., Biochim Biophys Acta. February 1, 2015; 1849 (2): 201-9.
	Xenopus mutant reveals necessity of rax for specifying the eye field which otherwise forms tissue with telencephalic and diencephalic character., Fish MB, Nakayama T, Fisher M, Hirsch N, Cox A, Reeder R, Carruthers S, Hall A, Stemple DL, Grainger RM., Dev Biol. November 15, 2014; 395 (2): 317-330.
	Photoactivation-induced instability of rhodopsin mutants T4K and T17M in rod outer segments underlies retinal degeneration in X. laevis transgenic models of retinitis pigmentosa., Tam BM, Noorwez SM, Kaushal S, Kono M, Moritz OL., J Neurosci. October 1, 2014; 34 (40): 13336-48.
	Radial intercalation is regulated by the Par complex and the microtubule-stabilizing protein CLAMP/Spef1., Werner ME, Mitchell JW, Putzbach W, Bacon E, Kim SK, Mitchell BJ., J Cell Biol. August 4, 2014; 206 (3): 367-76.
	Functional diversity of voltage-sensing phosphatases in two urodele amphibians., Mutua J, Jinno Y, Sakata S, Okochi Y, Ueno S, Tsutsui H, Kawai T, Iwao Y, Okamura Y., Physiol Rep. July 16, 2014; 2 (7):
	Retinal stem/progenitor cells in the ciliary marginal zone complete retinal regeneration: a study of retinal regeneration in a novel animal model., Miyake A, Araki M., Dev Neurobiol. July 1, 2014; 74 (7): 739-56.
	The retinal pigment epithelium: an important player of retinal disorders and regeneration., Chiba C., Exp Eye Res. June 1, 2014; 123 107-14.
	Magnetic nanoparticles as intraocular drug delivery system to target retinal pigmented epithelium (RPE)., Giannaccini M, Giannini M, Calatayud MP, Goya GF, Cuschieri A, Dente L, Raffa V., Int J Mol Sci. January 22, 2014; 15 (1): 1590-605.
	Targeted mutagenesis of multiple and paralogous genes in Xenopus laevis using two pairs of transcription activator-like effector nucleases., Sakane Y, Sakuma T, Kashiwagi K, Kashiwagi A, Yamamoto T, Suzuki KT., Dev Growth Differ. January 1, 2014; 56 (1): 108-14.
	Comparative expression analysis of cysteine-rich intestinal protein family members crip1, 2 and 3 during Xenopus laevis embryogenesis., Hempel A, Kühl SJ., Int J Dev Biol. January 1, 2014; 58 (10-12): 841-9.
	Simple and efficient CRISPR/Cas9-mediated targeted mutagenesis in Xenopus tropicalis., Nakayama T, Fish MB, Fisher M, Oomen-Hajagos J, Thomsen GH, Grainger RM., Genesis. December 1, 2013; 51 (12): 835-43.

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