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Summary Stage Literature (250) Attributions Wiki
XB-STAGE-59

Papers associated with NF stage 45

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De novo mutations in SMCHD1 cause Bosma arhinia microphthalmia syndrome and abrogate nasal development., Gordon CT, Xue S, Yigit G, Filali H, Chen K, Rosin N, Yoshiura KI, Oufadem M, Beck TJ, McGowan R, Magee AC, Altmüller J, Dion C, Thiele H, Gurzau AD, Nürnberg P, Meschede D, Mühlbauer W, Okamoto N, Varghese V, Irving R, Sigaudy S, Williams D, Ahmed SF, Bonnard C, Kong MK, Ratbi I, Fejjal N, Fikri M, Elalaoui SC, Reigstad H, Bole-Feysot C, Nitschké P, Ragge N, Lévy N, Tunçbilek G, Teo AS, Cunningham ML, Sefiani A, Kayserili H, Murphy JM, Chatdokmaiprai C, Hillmer AM, Wattanasirichaigoon D, Lyonnet S, Magdinier F, Javed A, Blewitt ME, Amiel J, Wollnik B, Reversade B., Nat Genet. February 1, 2017; 49 (2): 249-255.        


Noggin is required for first pharyngeal arch differentiation in the frog Xenopus tropicalis., Young JJ, Kjolby RAS, Wu G, Wong D, Hsu SW, Harland RM., Dev Biol. January 1, 2017; 426 (2): 245-254.                


Targeted integration of genes in Xenopus tropicalis., Shi Z, Tian D, Xin H, Lian J, Guo X, Chen Y., Genesis. January 1, 2017; 55 (1-2):     


Expression of the insulinoma-associated 1 (insm1) gene in Xenopus laevis tadpole retina and brain., Bosse JL, El-Hodiri HM., Gene Expr Patterns. September 1, 2016; 22 (1): 26-29.        


Syndecan4 coordinates Wnt/JNK and BMP signaling to regulate foregut progenitor development., Zhang Z, Zhang Z, Rankin SA, Rankin SA, Zorn AM., Dev Biol. August 1, 2016; 416 (1): 187-199.                                  


Sf3b4-depleted Xenopus embryos: A model to study the pathogenesis of craniofacial defects in Nager syndrome., Devotta A, Juraver-Geslin H, Gonzalez JA, Hong CS, Saint-Jeannet JP., Dev Biol. July 15, 2016; 415 (2): 371-382.                      


Formin Is Associated with Left-Right Asymmetry in the Pond Snail and the Frog., Davison A, McDowell GS, Holden JM, Johnson HF, Koutsovoulos GD, Liu MM, Hulpiau P, Van Roy F, Wade CM, Banerjee R, Yang F, Chiba S, Davey JW, Jackson DJ, Levin M, Blaxter ML., Curr Biol. March 7, 2016; 26 (5): 654-60.            


Regulation of growth rate and developmental timing by Xenopus thyroid hormone receptor α., Wen L, Shi YB., Dev Growth Differ. January 1, 2016; 58 (1): 106-15.          


Musculocontractural Ehlers-Danlos syndrome and neurocristopathies: dermatan sulfate is required for Xenopus neural crest cells to migrate and adhere to fibronectin., Gouignard N, Maccarana M, Strate I, von Stedingk K, Malmström A, Pera EM., Dis Model Mech. January 1, 2016; 9 (6): 607-20.                                      


Endocannabinoid signaling enhances visual responses through modulation of intracellular chloride levels in retinal ganglion cells., Miraucourt LS, Tsui J, Gobert D, Desjardins JF, Schohl A, Sild M, Spratt P, Castonguay A, De Koninck Y, Marsh-Armstrong N, Wiseman PW, Ruthazer ES., Elife. January 1, 2016; 5                     


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. January 1, 2016; 38 (5): 478-92.                        


An NMDA receptor-dependent mechanism for subcellular segregation of sensory inputs in the tadpole optic tectum., Hamodi AS, Liu Z, Pratt KG., Elife. January 1, 2016; 5                   


ATP4a is required for development and function of the Xenopus mucociliary epidermis - a potential model to study proton pump inhibitor-associated pneumonia., Walentek P, Beyer T, Hagenlocher C, Müller C, Feistel K, Schweickert A, Harland RM, Blum M., Dev Biol. December 15, 2015; 408 (2): 292-304.                                


Method for quantitative analysis of nonsense-mediated mRNA decay at the single cell level., Pereverzev AP, Gurskaya NG, Ermakova GV, Kudryavtseva EI, Markina NM, Kotlobay AA, Lukyanov SA, Zaraisky AG, Lukyanov KA., Sci Rep. September 21, 2015; 5 7729.            


A thioredoxin fold protein Sh3bgr regulates Enah and is necessary for proper sarcomere formation., Jang DG, Sim HJ, Song EK, Medina-Ruiz S, Seo JK, Park TJ., Dev Biol. September 1, 2015; 405 (1): 1-9.                                    


ATP4 and ciliation in the neuroectoderm and endoderm of Xenopus embryos and tadpoles., Walentek P, Hagenlocher C, Beyer T, Müller C, Feistel K, Schweickert A, Harland RM, Blum M., Data Brief. September 1, 2015; 4 22-31.            


Functional analysis of Hairy genes in Xenopus neural crest initial specification and cell migration., Vega-López GA, Bonano M, Tríbulo C, Fernández JP, Agüero TH, Aybar MJ, Aybar MJ., Dev Dyn. August 1, 2015; 244 (8): 988-1013.                            


Impact of maternal n-3 polyunsaturated fatty acid deficiency on dendritic arbor morphology and connectivity of developing Xenopus laevis central neurons in vivo., Igarashi M, Santos RA, Cohen-Cory S., J Neurosci. April 15, 2015; 35 (15): 6079-92.


Endogenous gradients of resting potential instructively pattern embryonic neural tissue via Notch signaling and regulation of proliferation., Pai VP, Lemire JM, Paré JF, Lin G, Chen Y, Levin M., J Neurosci. March 11, 2015; 35 (10): 4366-85.                    


The ribosome biogenesis factor Nol11 is required for optimal rDNA transcription and craniofacial development in Xenopus., Griffin JN, Sondalle SB, Del Viso F, Baserga SJ, Khokha MK., PLoS Genet. March 1, 2015; 11 (3): e1005018.                              


Netrin-1 directs dendritic growth and connectivity of vertebrate central neurons in vivo., Nagel AN, Marshak S, Manitt C, Santos RA, Piercy MA, Mortero SD, Shirkey-Son NJ, Cohen-Cory S., Neural Dev. February 25, 2015; 10 14.                          


Pax8 and Pax2 are specifically required at different steps of Xenopus pronephros development., Buisson I, Le Bouffant R, Futel M, Riou JF, Umbhauer M., Dev Biol. January 15, 2015; 397 (2): 175-90.                            


Characterization of tweety gene (ttyh1-3) expression in Xenopus laevis during embryonic development., Halleran AD, Sehdev M, Rabe BA, Huyck RW, Williams CC, Saha MS., Gene Expr Patterns. January 1, 2015; 17 (1): 38-44.                            


Prepatterning and patterning of the thalamus along embryonic development of Xenopus laevis., Bandín S, Morona R, González A., Front Neuroanat. January 1, 2015; 9 107.                                                    


Involvement of Slit-Robo signaling in the development of the posterior commissure and concomitant swimming behavior in Xenopus laevis., Tosa Y, Tsukano K, Itoyama T, Fukagawa M, Nii Y, Ishikawa R, Suzuki KT, Fukui M, Kawaguchi M, Murakami Y., Zoological Lett. January 1, 2015; 1 28.                      


Subcellular Localization of Class I Histone Deacetylases in the Developing Xenopus tectum., Guo X, Ruan H, Li X, Qin L, Tao Y, Qi X, Gao J, Gan L, Duan S, Shen W., Front Cell Neurosci. January 1, 2015; 9 510.                  


Hedgehog activity controls opening of the primary mouth., Tabler JM, Bolger TG, Wallingford J, Liu KJ, Liu KJ., Dev Biol. December 1, 2014; 396 (1): 1-7.            


Sterol carrier protein 2 regulates proximal tubule size in the Xenopus pronephric kidney by modulating lipid rafts., Cerqueira DM, Tran U, Romaker D, Abreu JG, Wessely O., Dev Biol. October 1, 2014; 394 (1): 54-64.                                          


5-Mehtyltetrahydrofolate rescues alcohol-induced neural crest cell migration abnormalities., Shi Y, Shi Y, Li J, Chen C, Gong M, Chen Y, Liu Y, Chen J, Li T, Song W., Mol Brain. September 16, 2014; 7 67.        


Heparanase 2, mutated in urofacial syndrome, mediates peripheral neural development in Xenopus., Roberts NA, Woolf AS, Stuart HM, Thuret R, McKenzie EA, Newman WG, Hilton EN., Hum Mol Genet. August 15, 2014; 23 (16): 4302-14.                              


Retinoic acid induced-1 (Rai1) regulates craniofacial and brain development in Xenopus., Tahir R, Kennedy A, Elsea SH, Dickinson AJ., Mech Dev. August 1, 2014; 133 91-104.                            


Sirtuin inhibitor Ex-527 causes neural tube defects, ventral edema formations, and gastrointestinal malformations in Xenopus laevis embryos., Ohata Y, Matsukawa S, Moriyama Y, Michiue T, Morimoto K, Sato Y, Kuroda H., Dev Growth Differ. August 1, 2014; 56 (6): 460-8.          


miR-34/449 miRNAs are required for motile ciliogenesis by repressing cp110., Song R, Walentek P, Sponer N, Klimke A, Lee JS, Dixon G, Harland R, Wan Y, Lishko P, Lize M, Kessel M, He L., Nature. June 5, 2014; 510 (7503): 115-20.                                


Sp8 regulates inner ear development., Chung HA, Medina-Ruiz S, Harland RM., Proc Natl Acad Sci U S A. April 29, 2014; 111 (17): 6329-34.                                                    


MicroRNAs are critical regulators of tuberous sclerosis complex and mTORC1 activity in the size control of the Xenopus kidney., Romaker D, Kumar V, Cerqueira DM, Cox RM, Wessely O., Proc Natl Acad Sci U S A. April 29, 2014; 111 (17): 6335-40.                                                          


Label-free determination of hemodynamic parameters in the microcirculaton with third harmonic generation microscopy., Dietzel S, Pircher J, Nekolla AK, Gull M, Brändli AW, Pohl U, Rehberg M., PLoS One. January 1, 2014; 9 (6): e99615.          


Left-right patterning in Xenopus conjoined twin embryos requires serotonin signaling and gap junctions., Vandenberg LN, Blackiston DJ, Rea AC, Dore TM, Levin M., Int J Dev Biol. January 1, 2014; 58 (10-12): 799-809.                


Epigenetic regulation of thyroid hormone-induced adult intestinal stem cell development during anuran metamorphosis., Sun G, Fu L, Shi YB., Cell Biosci. January 1, 2014; 4 73.      


Activin ligands are required for the re-activation of Smad2 signalling after neurulation and vascular development in Xenopus tropicalis., Nagamori Y, Roberts S, Maciej M, Dorey K., Int J Dev Biol. January 1, 2014; 58 (10-12): 783-91.            


Role of Sp5 as an essential early regulator of neural crest specification in xenopus., Park DS, Seo JH, Hong M, Bang W, Han JK, Choi SC., Dev Dyn. December 1, 2013; 242 (12): 1382-94.                


Differential regulation of two histidine ammonia-lyase genes during Xenopus development implicates distinct functions during thyroid hormone-induced formation of adult stem cells., Luu N, Wen L, Fu L, Fujimoto K, Shi YB, Sun G., Cell Biosci. November 13, 2013; 3 (1): 43.              


Ciliogenesis and cerebrospinal fluid flow in the developing Xenopus brain are regulated by foxj1., Hagenlocher C, Walentek P, M Ller C, Thumberger T, Feistel K., Cilia. September 24, 2013; 2 (1): 12.                  


Different thresholds of Wnt-Frizzled 7 signaling coordinate proliferation, morphogenesis and fate of endoderm progenitor cells., Zhang Z, Rankin SA, Zorn AM., Dev Biol. June 1, 2013; 378 (1): 1-12.                              


Tcf21 regulates the specification and maturation of proepicardial cells., Tandon P, Miteva YV, Kuchenbrod LM, Cristea IM, Conlon FL., Development. June 1, 2013; 140 (11): 2409-21.                                


Angiogenesis in the intermediate lobe of the pituitary gland alters its structure and function., Tanaka S, Nakakura T, Jansen EJ, Unno K, Okada R, Suzuki M, Martens GJ, Kikuyama S., Gen Comp Endocrinol. May 1, 2013; 185 10-8.        


Pax3 and Zic1 drive induction and differentiation of multipotent, migratory, and functional neural crest in Xenopus embryos., Milet C, Maczkowiak F, Roche DD, Monsoro-Burq AH., Proc Natl Acad Sci U S A. April 2, 2013; 110 (14): 5528-33.                      


Rab GTPases are required for early orientation of the left-right axis in Xenopus., Vandenberg LN, Morrie RD, Seebohm G, Lemire JM, Levin M., Mech Dev. April 1, 2013; 130 (4-5): 254-71.                      


Calponin 2 acts as an effector of noncanonical Wnt-mediated cell polarization during neural crest cell migration., Ulmer B, Hagenlocher C, Schmalholz S, Kurz S, Schweickert A, Kohl A, Roth L, Sela-Donenfeld D, Blum M., Cell Rep. March 28, 2013; 3 (3): 615-21.              


Signaling and transcriptional regulation in neural crest specification and migration: lessons from xenopus embryos., Pegoraro C, Monsoro-Burq AH., Wiley Interdiscip Rev Dev Biol. March 1, 2013; 2 (2): 247-59.      


Early development of the thymus in Xenopus laevis., Lee YH, Lee YH, Williams A, Hong CS, You Y, Senoo M, Saint-Jeannet JP., Dev Dyn. February 1, 2013; 242 (2): 164-78.                            

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