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Summary Expression Gene Literature (125) GO Terms (34) Nucleotides (147) Proteins (57) Interactants (1158) Wiki
XB-GENEPAGE-482491

Papers associated with pitx2

Search for pitx2 morpholinos using Textpresso

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23 paper(s) referencing morpholinos

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Retinoic acid production, regulation, and containment through Zic1, Pitx2c and Cyp26c1 control cranial placode specification., Dubey A, Yu J, Liu T, Kane MA, Saint-Jeannet JP., Development. February 16, 2021; 148 (4):


Retinol binding protein 1 affects Xenopus anterior neural development via all-trans retinoic acid signaling., Flach H, Basten T, Schreiner C, Dietmann P, Greco S, Nies L, Roßmanith N, Walter S, Kühl M, Kühl SJ., Dev Dyn. February 11, 2021;


Aquatic models of human ciliary diseases., Corkins ME, Krneta-Stankic V, Kloc M, Miller RK., Genesis. February 1, 2021; 59 (1-2): e23410.          


Nucleoporin NUP205 plays a critical role in cilia and congenital disease., Marquez J, Bhattacharya D, Lusk CP, Khokha MK., Dev Biol. January 1, 2021; 469 46-53.                        


rad21 Is Involved in Corneal Stroma Development by Regulating Neural Crest Migration., Zhang BN, Liu Y, Yang Q, Leung PY, Wang C, Wang C, Wang C, Wong TCB, Tham CC, Chan SO, Pang CP, Chen LJ, Dekker J, Zhao H, Chu WK., Int J Mol Sci. October 21, 2020; 21 (20):                             


CFAP43 modulates ciliary beating in mouse and Xenopus., Rachev E, Schuster-Gossler K, Fuhl F, Ott T, Tveriakhina L, Beckers A, Hegermann J, Boldt K, Mai M, Kremmer E, Ueffing M, Blum M, Gossler A., Dev Biol. January 1, 2020; 459 (2): 109-125.                                                                    


A dual function of FGF signaling in Xenopus left-right axis formation., Schneider I, Kreis J, Schweickert A, Blum M, Vick P., Development. January 1, 2019; 146 (9):                               


ISM1 regulates NODAL signaling and asymmetric organ morphogenesis during development., Osório L, Wu X, Wang L, Jiang Z, Neideck C, Sheng G, Zhou Z., J Cell Biol. January 1, 2019; 218 (7): 2388-2402.                  


Mechanical strain, novel genes and evolutionary insights: news from the frog left-right organizer., Blum M, Ott T., Curr Opin Genet Dev. January 1, 2019; 56 8-14.      


Histone H2B monoubiquitination regulates heart development via epigenetic control of cilia motility., Robson A, Makova SZ, Barish S, Zaidi S, Mehta S, Drozd J, Jin SC, Gelb BD, Seidman CE, Chung WK, Lifton RP, Khokha MK, Brueckner M., Proc Natl Acad Sci U S A. January 1, 2019; 116 (28): 14049-14054.                                  


An Early Function of Polycystin-2 for Left-Right Organizer Induction in Xenopus., Vick P, Kreis J, Schneider I, Tingler M, Getwan M, Thumberger T, Beyer T, Schweickert A, Blum M., iScience. April 27, 2018; 2 76-85.                                        


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 1, 2018; 44 (2): 248-260.e4.                                                


A Conserved Role of the Unconventional Myosin 1d in Laterality Determination., Tingler M, Kurz S, Maerker M, Ott T, Fuhl F, Schweickert A, LeBlanc-Straceski JM, Noselli S, Blum M., Curr Biol. January 1, 2018; 28 (5): 810-816.e3.                


Pitx1 regulates cement gland development in Xenopus laevis through activation of transcriptional targets and inhibition of BMP signaling., Jin Y, Weinstein DC., Dev Biol. January 1, 2018; 437 (1): 41-49.          


The left-right asymmetry of liver lobation is generated by Pitx2c-mediated asymmetries in the hepatic diverticulum., Womble M, Amin NM, Nascone-Yoder N., Dev Biol. January 1, 2018; 439 (2): 80-91.                  


RPSA, a candidate gene for isolated congenital asplenia, is required for pre-rRNA processing and spleen formation in Xenopus., Griffin JN, Sondalle SB, Robson A, Mis EK, Griffin G, Kulkarni SS, Deniz E, Baserga SJ, Khokha MK., Development. January 1, 2018; 145 (20):                   


WDR5 regulates left-right patterning via chromatin-dependent and -independent functions., Kulkarni SS, Khokha MK., Development. January 1, 2018; 145 (23):                 


Candidate Heterotaxy Gene FGFR4 Is Essential for Patterning of the Left-Right Organizer in Xenopus., Sempou E, Lakhani OA, Amalraj S, Khokha MK., Front Physiol. January 1, 2018; 9 1705.              


HCN4 ion channel function is required for early events that regulate anatomical left-right patterning in a nodal and lefty asymmetric gene expression-independent manner., Pai VP, Willocq V, Pitcairn EJ, Lemire JM, Paré JF, Shi NQ, McLaughlin KA, Levin M., Biol Open. October 15, 2017; 6 (10): 1445-1457.                              


A molecular atlas of the developing ectoderm defines neural, neural crest, placode, and nonneural progenitor identity in vertebrates., Plouhinec JL, Medina-Ruiz S, Borday C, Bernard E, Vert JP, Eisen MB, Harland RM, Monsoro-Burq AH., PLoS Biol. October 1, 2017; 15 (10): e2004045.                                              


Novel BCOR mutation in a boy with Lenz microphthalmia/oculo-facio-cardio-dental (OFCD) syndrome., Zhu X, Fu-Rong D, Wang J, Zhang Y, Tan ZP, Zhang Y., Gene. September 13, 2017; .


Conservatism and variability of gene expression profiles among homeologous transcription factors in Xenopus laevis., Watanabe M, Yasuoka Y, Mawaribuchi S, Kuretani A, Ito M, Kondo M, Ochi H, Ogino H, Fukui A, Taira M, Kinoshita T., Dev Biol. June 15, 2017; 426 (2): 301-324.                          


Leftward Flow Determines Laterality in Conjoined Twins., Tisler M, Thumberger T, Schneider I, Schweickert A, Blum M., Curr Biol. February 20, 2017; 27 (4): 543-548.                


What we can learn from a tadpole about ciliopathies and airway diseases: Using systems biology in Xenopus to study cilia and mucociliary epithelia., Walentek P, Quigley IK., Genesis. January 1, 2017; 55 (1-2):       


Stomach curvature is generated by left-right asymmetric gut morphogenesis., Davis A, Amin NM, Johnson C, Bagley K, Ghashghaei HT, Nascone-Yoder N., Development. January 1, 2017; 144 (8): 1477-1483.                      


A gene regulatory program controlling early Xenopus mesendoderm formation: Network conservation and motifs., Charney RM, Paraiso KD, Blitz IL, Cho KWY., Semin Cell Dev Biol. January 1, 2017; 66 12-24.    


Mouth development., Chen J, Jacox LA, Saldanha F, Sive H., Wiley Interdiscip Rev Dev Biol. January 1, 2017; 6 (5):               


Xenopus pitx3 target genes lhx1 and xnr5 are identified using a novel three-fluor flow cytometry-based analysis of promoter activation and repression., Hooker LN, Smoczer C, Abbott S, Fakhereddin M, Hudson JW, Crawford MJ., Dev Dyn. January 1, 2017; 246 (9): 657-669.                    


Roles of the cilium-associated gene CCDC11 in left-right patterning and in laterality disorders in humans., Gur M, Cohen EB, Genin O, Fainsod A, Perles Z, Cinnamon Y., Int J Dev Biol. January 1, 2017; 61 (3-4-5): 267-276.          


Coordinating heart morphogenesis: A novel role for hyperpolarization-activated cyclic nucleotide-gated (HCN) channels during cardiogenesis in Xenopus laevis., Pitcairn E, Harris H, Epiney J, Pai VP, Lemire JM, Ye B, Shi NQ, Levin M, McLaughlin KA., Commun Integr Biol. January 1, 2017; 10 (3): e1309488.                            


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. January 1, 2017; 43 (6): 744-762.e11.      


Id genes are essential for early heart formation., Cunningham TJ, Yu MS, McKeithan WL, Spiering S, Carrette F, Huang CT, Bushway PJ, Tierney M, Albini S, Giacca M, Mano M, Puri PL, Sacco A, Ruiz-Lozano P, Riou JF, Umbhauer M, Duester G, Mercola M, Colas AR., Genes Dev. January 1, 2017; 31 (13): 1325-1338.                


Dishevelled Paralogs in Vertebrate Development: Redundant or Distinct?, Gentzel M, Schambony A., Front Cell Dev Biol. January 1, 2017; 5 59.    


Ciliary transcription factors and miRNAs precisely regulate Cp110 levels required for ciliary adhesions and ciliogenesis., Walentek P, Quigley IK, Sun DI, Sajjan UK, Kintner C, Harland RM., Elife. September 13, 2016; 5                                   


The ciliopathy-associated CPLANE proteins direct basal body recruitment of intraflagellar transport machinery., Toriyama M, Lee C, Taylor SP, Duran I, Cohn DH, Bruel AL, Tabler JM, Drew K, Kelly MR, Kim S, Park TJ, Braun DA, Pierquin G, Biver A, Wagner K, Malfroot A, Panigrahi I, Franco B, Al-Lami HA, Yeung Y, Choi YJ, null null, Duffourd Y, Faivre L, Rivière JB, Chen J, Liu KJ, Liu KJ, Marcotte EM, Hildebrandt F, Thauvin-Robinet C, Krakow D, Jackson PK, Wallingford JB., Nat Genet. June 1, 2016; 48 (6): 648-56.                              


Conserved roles for cytoskeletal components in determining laterality., McDowell GS, Lemire JM, Paré JF, Cammarata G, Lowery LA, Levin M., Integr Biol (Camb). March 14, 2016; 8 (3): 267-86.


Xenopus as a model organism for birth defects-Congenital heart disease and heterotaxy., Duncan AR, Khokha MK., Semin Cell Dev Biol. March 1, 2016; 51 73-9.    


Nodal signalling in Xenopus: the role of Xnr5 in left/right asymmetry and heart development., Tadjuidje E, Kofron M, Mir A, Wylie C, Heasman J, Cha SW., Open Biol. January 1, 2016; 6 (8):             


Formation of a "Pre-mouth Array" from the Extreme Anterior Domain Is Directed by Neural Crest and Wnt/PCP Signaling., Jacox L, Chen J, Rothman A, Lathrop-Marshall H, Sive H., Cell Rep. January 1, 2016; 16 (5): 1445-1455.            


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.                        


The NIMA-like kinase Nek2 is a key switch balancing cilia biogenesis and resorption in the development of left-right asymmetry., Endicott SJ, Basu B, Khokha M, Brueckner M., Development. December 1, 2015; 142 (23): 4068-79.                                  


ERK7 regulates ciliogenesis by phosphorylating the actin regulator CapZIP in cooperation with Dishevelled., Miyatake K, Kusakabe M, Takahashi C, Nishida E., Nat Commun. March 31, 2015; 6 6666.                


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.                              


Genome-wide view of TGFβ/Foxh1 regulation of the early mesendoderm program., Chiu WT, Charney Le R, Blitz IL, Fish MB, Li Y, Biesinger J, Xie X, Cho KW., Development. December 1, 2014; 141 (23): 4537-47.                                  


Developmental enhancers are marked independently of zygotic Nodal signals in Xenopus., Gupta R, Wills A, Ucar D, Baker J., Dev Biol. November 1, 2014; 395 (1): 38-49.            


Symmetry breakage in the frog Xenopus: role of Rab11 and the ventral-right blastomere., Tingler M, Ott T, Tözser J, Kurz S, Getwan M, Tisler M, Schweickert A, Blum M., Genesis. June 1, 2014; 52 (6): 588-99.            


The chicken left right organizer has nonmotile cilia which are lost in a stage-dependent manner in the talpid(3) ciliopathy., Stephen LA, Johnson EJ, Davis GM, McTeir L, Pinkham J, Jaberi N, Davey MG., Genesis. June 1, 2014; 52 (6): 600-13.            


The evolution and conservation of left-right patterning mechanisms., Blum M, Feistel K, Thumberger T, Schweickert A., Development. April 1, 2014; 141 (8): 1603-13.              


A potential molecular pathogenesis of cardiac/laterality defects in Oculo-Facio-Cardio-Dental syndrome., Tanaka K, Kato A, Angelocci C, Watanabe M, Kato Y., Dev Biol. March 1, 2014; 387 (1): 28-36.        


Zygotic expression of Exostosin1 (Ext1) is required for BMP signaling and establishment of dorsal-ventral pattern in Xenopus., Shieh YE, Wells DE, Sater AK., Int J Dev Biol. January 1, 2014; 58 (1): 27-34.          

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