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Gene Expression Literature Summary
Symbol
Name
ID
Foxc2
forkhead box C2
MGI:1347481

93 matching records from 93 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.
Age E6.5 E7 E7.5 E8 E8.5 E9 E9.5 E10.5 E11 E11.5 E12 E12.5 E13 E13.5 E14 E14.5 E15 E15.5 E16 E16.5 E17 E17.5 E18.5 E P
Immunohistochemistry (section) 1 3 3 5 2 8 8 8 5 1 4 3 3 5 1 7
In situ RNA (section) 1 1 2 2 10 12 1 8 1 6 1 6 2 9 1 6 1 2 1 4
Immunohistochemistry (whole mount) 1 1 1 1 3 2 3 5
In situ RNA (whole mount) 1 2 2 3 1 16 13 4 1 1 1
In situ reporter (knock in) 1 1
Northern blot 1 1 1 1 1 1 1
Western blot 1
RT-PCR 3 4 4 8 4 4 2 2 1 3 6
cDNA clones 1 2 2
RNase protection 1 1 2 1 2 1 2 1 2 1 2

Summary by Gene and Reference: Number indicates the number of results matching the search criteria recorded for each reference.
* Indicates detailed expression data entries available
Foxc2  forkhead box C2   (Synonyms: Fkh14, Hfhbf3, Mfh1, MFH-1)
Results  Reference
1J:77612 Akazawa H, Komuro I, Sugitani Y, Yazaki Y, Nagai R, Noda T, Targeted disruption of the homeobox transcription factor Bapx1 results in lethal skeletal dysplasia with asplenia and gastroduodenal malformation. Genes Cells. 2000 Jun;5(6):499-513
4J:120112 Amati F, Biancolella M, Farcomeni A, Giallonardi S, Bueno S, Minella D, Vecchione L, Chillemi G, Desideri A, Novelli G, Dynamic changes in gene expression profiles of 22q11 and related orthologous genes during mouse development. Gene. 2007 Apr 15;391(1-2):91-102
1J:237938 Amin MB, Miura N, Uddin MK, Islam MJ, Yoshida N, Iseki S, Kume T, Trainor PA, Saitsu H, Aoto K, Foxc2CreERT2 knock-in mice mark stage-specific Foxc2-expressing cells during mouse organogenesis. Congenit Anom (Kyoto). 2017 Jan;57(1):24-31
4J:152968 Bazigou E, Xie S, Chen C, Weston A, Miura N, Sorokin L, Adams R, Muro AF, Sheppard D, Makinen T, Integrin-alpha9 is required for fibronectin matrix assembly during lymphatic valve morphogenesis. Dev Cell. 2009 Aug;17(2):175-86
1J:174353 Boualia SK, Gaitan Y, Murawski I, Nadon R, Gupta IR, Bouchard M, Vesicoureteral reflux and other urinary tract malformations in mice compound heterozygous for pax2 and emx2. PLoS One. 2011;6(6):e21529
1J:212891 Bouvree K, Brunet I, Del Toro R, Gordon E, Prahst C, Cristofaro B, Mathivet T, Xu Y, Soueid J, Fortuna V, Miura N, Aigrot MS, Maden CH, Ruhrberg C, Thomas JL, Eichmann A, Semaphorin3A, Neuropilin-1, and PlexinA1 are required for lymphatic valve formation. Circ Res. 2012 Aug 3;111(4):437-45
1J:206581 Bowles J, Secker G, Nguyen C, Kazenwadel J, Truong V, Frampton E, Curtis C, Skoczylas R, Davidson TL, Miura N, Hong YK, Koopman P, Harvey NL, Francois M, Control of retinoid levels by CYP26B1 is important for lymphatic vascular development in the mouse embryo. Dev Biol. 2014 Feb 1;386(1):25-33
1J:177885 Brunskill EW, Georgas K, Rumballe B, Little MH, Potter SS, Defining the molecular character of the developing and adult kidney podocyte. PLoS One. 2011;6(9):e24640
5J:233304 Cha B, Geng X, Mahamud MR, Fu J, Mukherjee A, Kim Y, Jho EH, Kim TH, Kahn ML, Xia L, Dixon JB, Chen H, Srinivasan RS, Mechanotransduction activates canonical Wnt/beta-catenin signaling to promote lymphatic vascular patterning and the development of lymphatic and lymphovenous valves. Genes Dev. 2016 Jun 15;30(12):1454-69
1*J:259848 Chal J, Al Tanoury Z, Oginuma M, Moncuquet P, Gobert B, Miyanari A, Tassy O, Guevara G, Hubaud A, Bera A, Sumara O, Garnier JM, Kennedy L, Knockaert M, Gayraud-Morel B, Tajbakhsh S, Pourquie O, Recapitulating early development of mouse musculoskeletal precursors of the paraxial mesoderm in vitro. Development. 2018 Mar 19;145(6)
1J:182705 Choe Y, Siegenthaler JA, Pleasure SJ, A cascade of morphogenic signaling initiated by the meninges controls corpus callosum formation. Neuron. 2012 Feb 23;73(4):698-712
11J:93150 Dagenais SL, Hartsough RL, Erickson RP, Witte MH, Butler MG, Glover TW, Foxc2 is expressed in developing lymphatic vessels and other tissues associated with lymphedema-distichiasis syndrome. Gene Expr Patterns. 2004 Oct;4(6):611-9
1J:139168 Dakubo GD, Mazerolle C, Furimsky M, Yu C, St-Jacques B, McMahon AP, Wallace VA, Indian hedgehog signaling from endothelial cells is required for sclera and retinal pigment epithelium development in the mouse eye. Dev Biol. 2008 Aug 1;320(1):242-55
1*J:153498 Diez-Roux G, Banfi S, Sultan M, Geffers L, Anand S, Rozado D, Magen A, Canidio E, Pagani M, Peluso I, Lin-Marq N, Koch M, Bilio M, Cantiello I, Verde R, De Masi C, Bianchi SA, Cicchini J, Perroud E, Mehmeti S, Dagand E, Schrinner S, Nurnberger A, SchmidtK, Metz K, Zwingmann C, Brieske N, Springer C, Hernandez AM, Herzog S, Grabbe F, Sieverding C, Fischer B, Schrader K, Brockmeyer M, Dettmer S, Helbig C, Alunni V, Battaini MA, Mura C, Henrichsen CN, Garcia-Lopez R, Echevarria D, Puelles E, et al., A high-resolution anatomical atlas of the transcriptome in the mouse embryo. PLoS Biol. 2011;9(1):e1000582
4J:237068 Fatima A, Wang Y, Uchida Y, Norden P, Liu T, Culver A, Dietz WH, Culver F, Millay M, Mukouyama YS, Kume T, Foxc1 and Foxc2 deletion causes abnormal lymphangiogenesis and correlates with ERK hyperactivation. J Clin Invest. 2016 Jul 01;126(7):2437-51
2J:78685 Frank DU, Fotheringham LK, Brewer JA, Muglia LJ, Tristani-Firouzi M, Capecchi MR, Moon AM, An Fgf8 mouse mutant phenocopies human 22q11 deletion syndrome. Development. 2002 Oct;129(19):4591-603
7*J:55575 Furumoto TA, Miura N, Akasaka T, Mizutani-Koseki Y, Sudo H, Fukuda K , Maekawa M , Yuasa S , Fu Y , Moriya H , Taniguchi M , Imai K , Dahl E , Balling R , Pavlova M , Gossler A , Koseki H, Notochord-dependent expression of MFH1 and PAX1 cooperates to maintain the proliferation of sclerotome cells during the vertebral column development. Dev Biol. 1999 Jun 1;210(1):15-29
2J:215601 Gage PJ, Kuang C, Zacharias AL, The homeodomain transcription factor PITX2 is required for specifying correct cell fates and establishing angiogenic privilege in the developing cornea. Dev Dyn. 2014 Nov;243(11):1391-400
3J:136041 Gage PJ, Qian M, Wu D, Rosenberg KI, The canonical Wnt signaling antagonist DKK2 is an essential effector of PITX2 function during normal eye development. Dev Biol. 2008 May 1;317(1):310-24
7J:228882 Geng X, Cha B, Mahamud MR, Lim KC, Silasi-Mansat R, Uddin MK, Miura N, Xia L, Simon AM, Engel JD, Chen H, Lupu F, Srinivasan RS, Multiple mouse models of primary lymphedema exhibit distinct defects in lymphovenous valve development. Dev Biol. 2016 Jan 1;409(1):218-33
3*J:86790 Gitler AD, Lu MM, Jiang YQ, Epstein JA, Gruber PJ, Molecular markers of cardiac endocardial cushion development. Dev Dyn. 2003 Dec;228(4):643-50
3*J:91257 Gray PA, Fu H, Luo P, Zhao Q, Yu J, Ferrari A, Tenzen T, Yuk DI, Tsung EF, Cai Z, Alberta JA, Cheng LP, Liu Y, Stenman JM, Valerius MT, Billings N, Kim HA, Greenberg ME, McMahon AP, Rowitch DH, Stiles CD, Ma Q, Mouse Brain Organization Revealed Through Direct Genome-Scale TF Expression Analysis. Science. 2004 Dec 24;306(5705):2255-2257
1J:191565 Grote P, Wittler L, Hendrix D, Koch F, Wahrisch S, Beisaw A, Macura K, Blass G, Kellis M, Werber M, Herrmann BG, The Tissue-Specific lncRNA Fendrr Is an Essential Regulator of Heart and Body Wall Development in the Mouse. Dev Cell. 2013 Jan 28;24(2):206-14
2*J:171409 GUDMAP Consortium, GUDMAP: the GenitoUrinary Development Molecular Anatomy Project. www.gudmap.org. 2004;
2J:239666 Hagglund AC, Jones I, Carlsson L, A novel mouse model of anterior segment dysgenesis (ASD): conditional deletion of Tsc1 disrupts ciliary body and iris development. Dis Model Mech. 2017 Mar 01;10(3):245-257
1J:33767 Hatini V, Huh SO, Herzlinger D, Soares VC, Lai E, Essential role of stromal mesenchyme in kidney morphogenesis revealed by targeted disruption of Winged Helix transcription factor BF-2. Genes Dev. 1996 Jun 15;10(12):1467-78
1J:214763 He F, Hu X, Xiong W, Li L, Lin L, Shen B, Yang L, Gu S, Zhang Y, Chen Y, Directed Bmp4 expression in neural crest cells generates a genetic model for the rare human bony syngnathia birth defect. Dev Biol. 2014 Jul 15;391(2):170-81
1*J:47627 Hiemisch H, Monaghan AP, Schutz G, Kaestner KH, Expression of the mouse Fkh1/Mf1 and Mfh1 genes in late gestation embryos is restricted to mesoderm derivatives. Mech Dev. 1998 Apr;73(1):129-32
1J:138257 Hoshino T, Shimizu R, Ohmori S, Nagano M, Pan X, Ohneda O, Khandekar M, Yamamoto M, Lim KC, Engel JD, Reduced BMP4 abundance in Gata2 hypomorphic mutant mice result in uropathies resembling human CAKUT. Genes Cells. 2008 Feb;13(2):159-70
1J:148019 Huang J, Dattilo LK, Rajagopal R, Liu Y, Kaartinen V, Mishina Y, Deng CX, Umans L, Zwijsen A, Roberts AB, Beebe DC, FGF-regulated BMP signaling is required for eyelid closure and to specify conjunctival epithelial cell fate. Development. 2009 May;136(10):1741-50
7*J:55316 Iida K, Koseki H, Kakinuma H, Kato N, Mizutani-Koseki Y, Ohuchi H, Yoshioka H, Noji S, Kawamura K, Kataoka Y, Ueno F, Taniguchi M, Yoshida N, Sugiyama T, Miura N, Essential roles of the winged helix transcription factor MFH-1 in aortic arch patterning and skeletogenesis. Development. 1997 Nov;124(22):4627-38
5J:267541 Inman KE, Caiaffa CD, Melton KR, Sandell LL, Achilleos A, Kume T, Trainor PA, Foxc2 is required for proper cardiac neural crest cell migration, outflow tract septation, and ventricle expansion. Dev Dyn. 2018 Dec;247(12):1286-1296
3J:252596 Janardhan HP, Milstone ZJ, Shin M, Lawson ND, Keaney JF Jr, Trivedi CM, Hdac3 regulates lymphovenous and lymphatic valve formation. J Clin Invest. 2017 Nov 1;127(11):4193-4206
3J:89445 Jeong J, Mao J, Tenzen T, Kottmann AH, McMahon AP, Hedgehog signaling in the neural crest cells regulates the patterning and growth of facial primordia. Genes Dev. 2004 Apr 15;18(8):937-51
19*J:33548 Kaestner KH, Bleckmann SC, Monaghan AP, Schlondorff J, Mincheva A, Lichter P, Schutz G, Clustered arrangement of winged helix genes fkh-6 and MFH-1: possible implications for mesoderm development. Development. 1996 Jun;122(6):1751-8
1J:173649 Kanady JD, Dellinger MT, Munger SJ, Witte MH, Simon AM, Connexin37 and Connexin43 deficiencies in mice disrupt lymphatic valve development and result in lymphatic disorders including lymphedema and chylothorax. Dev Biol. 2011 Jun 15;354(2):253-66
1J:225741 Kanady JD, Munger SJ, Witte MH, Simon AM, Combining Foxc2 and Connexin37 deletions in mice leads to severe defects in lymphatic vascular growth and remodeling. Dev Biol. 2015 Sep 1;405(1):33-46
4J:102130 Kanzaki-Kato N, Tamakoshi T, Fu Y, Chandra A, Itakura T, Uezato T, Tanaka T, Clouthier DE, Sugiyama T, Yanagisawa M, Miura N, Roles of forkhead transcription factor Foxc2 (MFH-1) and endothelin receptor A in cardiovascular morphogenesis. Cardiovasc Res. 2005 Feb 15;65(3):711-8
1J:225799 Kazenwadel J, Betterman KL, Chong CE, Stokes PH, Lee YK, Secker GA, Agalarov Y, Demir CS, Lawrence DM, Sutton DL, Tabruyn SP, Miura N, Salminen M, Petrova TV, Matthews JM, Hahn CN, Scott HS, Harvey NL, GATA2 is required for lymphatic vessel valve development and maintenance. J Clin Invest. 2015 Aug 3;125(8):2979-94
1*J:79898 Kochilas L, Merscher-Gomez S, Lu MM, Potluri V, Liao J, Kucherlapati R, Morrow B, Epstein JA, The role of neural crest during cardiac development in a mouse model of DiGeorge syndrome. Dev Biol. 2002 Nov 1;251(1):157-66
3J:213620 Kong P, Racedo SE, Macchiarulo S, Hu Z, Carpenter C, Guo T, Wang T, Zheng D, Morrow BE, Tbx1 is required autonomously for cell survival and fate in the pharyngeal core mesoderm to form the muscles of mastication. Hum Mol Genet. 2014 Aug 15;23(16):4215-31
4*J:60834 Kume T, Deng K, Hogan BL, Murine forkhead/winged helix genes Foxc1 (Mf1) and Foxc2 (Mfh1) are required for the early organogenesis of the kidney and urinary tract. Development. 2000 Apr;127(7):1387-95
4J:71693 Kume T, Jiang H, Topczewska JM, Hogan BL, The murine winged helix transcription factors, Foxc1 and Foxc2, are both required for cardiovascular development and somitogenesis. Genes Dev. 2001 Sep 15;15(18):2470-82
1J:203791 Kuracha MR, Siefker E, Licht JD, Govindarajan V, Spry1 and Spry2 are necessary for eyelid closure. Dev Biol. 2013 Nov 15;383(2):227-38
3J:156014 Lagha M, Brunelli S, Messina G, Cumano A, Kume T, Relaix F, Buckingham ME, Pax3:Foxc2 reciprocal repression in the somite modulates muscular versus vascular cell fate choice in multipotent progenitors. Dev Cell. 2009 Dec;17(6):892-9
1J:167213 Lagha M, Sato T, Regnault B, Cumano A, Zuniga A, Licht J, Relaix F, Buckingham M, Transcriptome analyses based on genetic screens for Pax3 myogenic targets in the mouse embryo. BMC Genomics. 2010;11:696
1J:239835 Lee S, Rho SS, Park H, Park JA, Kim J, Lee IK, Koh GY, Mochizuki N, Kim YM, Kwon YG, Carbohydrate-binding protein CLEC14A regulates VEGFR-2- and VEGFR-3-dependent signals during angiogenesis and lymphangiogenesis. J Clin Invest. 2017 Feb 01;127(2):457-471
1J:201783 Levet S, Ciais D, Merdzhanova G, Mallet C, Zimmers TA, Lee SJ, Navarro FP, Texier I, Feige JJ, Bailly S, Vittet D, Bone morphogenetic protein 9 (BMP9) controls lymphatic vessel maturation and valve formation. Blood. 2013 Jul 25;122(4):598-607
2J:245974 Li J, Cui Y, Xu J, Wang Q, Yang X, Li Y, Zhang X, Qiu M, Zhang Z, Zhang Z, Suppressor of Fused restraint of Hedgehog activity level is critical for osteogenic proliferation and differentiation during calvarial bone development. J Biol Chem. 2017 Sep 22;292(38):15814-15825
3J:223043 Liebl J, Zhang S, Moser M, Agalarov Y, Demir CS, Hager B, Bibb JA, Adams RH, Kiefer F, Miura N, Petrova TV, Vollmar AM, Zahler S, Cdk5 controls lymphatic vessel development and function by phosphorylation of Foxc2. Nat Commun. 2015;6:7274
1J:264111 Liu CF, Angelozzi M, Haseeb A, Lefebvre V, SOX9 is dispensable for the initiation of epigenetic remodeling and the activation of marker genes at the onset of chondrogenesis. Development. 2018 Jul 18;145(14)
3*J:162220 Magdaleno S, Jensen P, Brumwell CL, Seal A, Lehman K, Asbury A, Cheung T, Cornelius T, Batten DM, Eden C, Norland SM, Rice DS, Dosooye N, Shakya S, Mehta P, Curran T, BGEM: an in situ hybridization database of gene expression in the embryonic and adult mouse nervous system. PLoS Biol. 2006 Apr;4(4):e86
2J:84754 Mankoo BS, Skuntz S, Harrigan I, Grigorieva E, Candia A, Wright CV, Arnheiter H, Pachnis V, The concerted action of Meox homeobox genes is required upstream of genetic pathways essential for the formation, patterning and differentiation of somites. Development. 2003 Oct;130(19):4655-64
4J:105944 Mattiske D, Kume T, Hogan BL, The mouse forkhead gene Foxc1 is required for primordial germ cell migration and antral follicle development. Dev Biol. 2006 Feb 15;290(2):447-58
2J:212088 Mayeuf-Louchart A, Lagha M, Danckaert A, Rocancourt D, Relaix F, Vincent SD, Buckingham M, Notch regulation of myogenic versus endothelial fates of cells that migrate from the somite to the limb. Proc Natl Acad Sci U S A. 2014 Jun 17;111(24):8844-9
1J:40156 Miura N, Iida K, Kakinuma H, Yang XL, Sugiyama T, Isolation of the mouse (MFH-1) and human (FKHL 14) mesenchyme fork head-1 genes reveals conservation of their gene and protein structures. Genomics. 1997 May 1;41(3):489-92
19J:33942 Miura N, Wanaka A, Tohyama M, Tanaka K, MFH-1, a new member of the fork head domain family, is expressed in developing mesenchyme. FEBS Lett. 1993 Jul 12;326(1-3):171-6
5J:262023 Morooka N, Futaki S, Sato-Nishiuchi R, Nishino M, Totani Y, Shimono C, Nakano I, Nakajima H, Mochizuki N, Sekiguchi K, Polydom Is an Extracellular Matrix Protein Involved in Lymphatic Vessel Remodeling. Circ Res. 2017 Apr 14;120(8):1276-1288
1J:152419 Mugford JW, Yu J, Kobayashi A, McMahon AP, High-resolution gene expression analysis of the developing mouse kidney defines novel cellular compartments within the nephron progenitor population. Dev Biol. 2009 Sep 15;333(2):312-23
1J:231667 Munger SJ, Geng X, Srinivasan RS, Witte MH, Paul DL, Simon AM, Segregated Foxc2, NFATc1 and Connexin expression at normal developing venous valves, and Connexin-specific differences in the valve phenotypes of Cx37, Cx43, and Cx47 knockout mice. Dev Biol. 2016 Apr 15;412(2):173-90
2J:206883 Murashima A, Akita H, Okazawa M, Kishigami S, Nakagata N, Nishinakamura R, Yamada G, Midline-derived Shh regulates mesonephric tubule formation through the paraxial mesoderm. Dev Biol. 2014 Feb 1;386(1):216-26
6J:149138 Norrmen C, Ivanov KI, Cheng J, Zangger N, Delorenzi M, Jaquet M, Miura N, Puolakkainen P, Horsley V, Hu J, Augustin HG, Yla-Herttuala S, Alitalo K, Petrova TV, FOXC2 controls formation and maturation of lymphatic collecting vessels through cooperation with NFATc1. J Cell Biol. 2009 May 4;185(3):439-57
1J:185279 Paces-Fessy M, Fabre M, Lesaulnier C, Cereghini S, Hnf1b and Pax2 cooperate to control different pathways in kidney and ureter morphogenesis. Hum Mol Genet. 2012 Jul 15;21(14):3143-55
6J:92818 Petrova TV, Karpanen T, Norrmen C, Mellor R, Tamakoshi T, Finegold D, Ferrell R, Kerjaschki D, Mortimer P, Yla-Herttuala S, Miura N, Alitalo K, Defective valves and abnormal mural cell recruitment underlie lymphatic vascular failure in lymphedema distichiasis. Nat Med. 2004 Sep;10(9):974-981
2J:60307 Pressman CL, Chen H, Johnson RL, LMX1B, a LIM homeodomain class transcription factor, is necessary for normal development of multiple tissues in the anterior segment of the murine eye. Genesis. 2000 Jan;26(1):15-25
2J:219810 Qu X, Zhou B, Scott Baldwin H, Tie1 is required for lymphatic valve and collecting vessel development. Dev Biol. 2015 Mar 1;399(1):117-28
4J:85739 Rice R, Rice DP, Olsen BR, Thesleff I, Progression of calvarial bone development requires Foxc1 regulation of Msx2 and Alx4. Dev Biol. 2003 Oct 1;262(1):75-87
5J:181330 Sabine A, Agalarov Y, Maby-El Hajjami H, Jaquet M, Hagerling R, Pollmann C, Bebber D, Pfenniger A, Miura N, Dormond O, Calmes JM, Adams RH, Makinen T, Kiefer F, Kwak BR, Petrova TV, Mechanotransduction, PROX1, and FOXC2 Cooperate to Control Connexin37 and Calcineurin during Lymphatic-Valve Formation. Dev Cell. 2012 Feb 14;22(2):430-45
2J:236978 Santos R, Kawauchi S, Jacobs RE, Lopez-Burks ME, Choi H, Wikenheiser J, Hallgrimsson B, Jamniczky HA, Fraser SE, Lander AD, Calof AL, Conditional Creation and Rescue of Nipbl-Deficiency in Mice Reveals Multiple Determinants of Risk for Congenital Heart Defects. PLoS Biol. 2016 Sep;14(9):e2000197
1J:188816 Sasman A, Nassano-Miller C, Shim KS, Koo HY, Liu T, Schultz KM, Millay M, Nanano A, Kang M, Suzuki T, Kume T, Generation of conditional alleles for Foxc1 and Foxc2 in mice. Genesis. 2012 Oct;50(10):766-74
2J:119144 Seo S, Fujita H, Nakano A, Kang M, Duarte A, Kume T, The forkhead transcription factors, Foxc1 and Foxc2, are required for arterial specification and lymphatic sprouting during vascular development. Dev Biol. 2006 Jun 15;294(2):458-70
5J:119303 Seo S, Kume T, Forkhead transcription factors, Foxc1 and Foxc2, are required for the morphogenesis of the cardiac outflow tract. Dev Biol. 2006 Aug 15;296(2):421-36
4J:209112 Shimizu H, Kubo A, Uchibe K, Hashimoto M, Yokoyama S, Takada S, Mitsuoka K, Asahara H, The AERO system: a 3D-like approach for recording gene expression patterns in the whole mouse embryo. PLoS One. 2013;8(10):e75754
1J:157301 Siegenthaler JA, Ashique AM, Zarbalis K, Patterson KP, Hecht JH, Kane MA, Folias AE, Choe Y, May SR, Kume T, Napoli JL, Peterson AS, Pleasure SJ, Retinoic acid from the meninges regulates cortical neuron generation. Cell. 2009 Oct 30;139(3):597-609
1J:199438 Siegenthaler JA, Choe Y, Patterson KP, Hsieh I, Li D, Jaminet SC, Daneman R, Kume T, Huang EJ, Pleasure SJ, Foxc1 is required by pericytes during fetal brain angiogenesis. Biol Open. 2013 Jul 15;2(7):647-59
5J:177488 Srinivasan RS, Oliver G, Prox1 dosage controls the number of lymphatic endothelial cell progenitors and the formation of the lymphovenous valves. Genes Dev. 2011 Oct 15;25(20):2187-97
2*J:106710 Takemoto M, He L, Norlin J, Patrakka J, Xiao Z, Petrova T, Bondjers C, Asp J, Wallgard E, Sun Y, Samuelsson T, Mostad P, Lundin S, Miura N, Sado Y, Alitalo K, Quaggin SE, Tryggvason K, Betsholtz C, Large-scale identification of genes implicated in kidney glomerulus development and function. EMBO J. 2006 Mar 8;25(5):1160-74
5*J:215487 Thompson CL, Ng L, Menon V, Martinez S, Lee CK, Glattfelder K, Sunkin SM, Henry A, Lau C, Dang C, Garcia-Lopez R, Martinez-Ferre A, Pombero A, Rubenstein JL, Wakeman WB, Hohmann J, Dee N, Sodt AJ, Young R, Smith K, Nguyen TN, Kidney J, Kuan L, Jeromin A,Kaykas A, Miller J, Page D, Orta G, Bernard A, Riley Z, Smith S, Wohnoutka P, Hawrylycz MJ, Puelles L, Jones AR, A high-resolution spatiotemporal atlas of gene expression of the developing mouse brain. Neuron. 2014 Jul 16;83(2):309-23
1J:213975 Tian H, Sanders E, Reynolds A, van Roy F, van Hengel J, Ocular anterior segment dysgenesis upon ablation of p120 catenin in neural crest cells. Invest Ophthalmol Vis Sci. 2012 Aug;53(9):5139-53
1J:192736 Tiozzo C, Carraro G, Al Alam D, Baptista S, Danopoulos S, Li A, Lavarreda-Pearce M, Li C, De Langhe S, Chan B, Borok Z, Bellusci S, Minoo P, Mesodermal Pten inactivation leads to alveolar capillary dysplasia- like phenotype. J Clin Invest. 2012 Nov 1;122(11):3862-72
1*J:55583 Tribioli C, Lufkin T, The murine Bapx1 homeobox gene plays a critical role in embryonic development of the axial skeleton and spleen. Development. 1999 Dec;126(24):5699-711
3J:255355 Tsuji M, Morishima M, Shimizu K, Morikawa S, Heglind M, Enerback S, Ezaki T, Tamaoki J, Foxc2 influences alveolar epithelial cell differentiation during lung development. Dev Growth Differ. 2017 Aug;59(6):501-514
1*J:122989 Visel A, Thaller C, Eichele G, GenePaint.org: an atlas of gene expression patterns in the mouse embryo. Nucleic Acids Res. 2004 Jan 1;32(Database issue):D552-6
3J:188772 Voss AK, Vanyai HK, Collin C, Dixon MP, McLennan TJ, Sheikh BN, Scambler P, Thomas T, MOZ regulates the Tbx1 locus, and Moz mutation partially phenocopies DiGeorge syndrome. Dev Cell. 2012 Sep 11;23(3):652-63
1J:93182 Wang B, Weidenfeld J, Lu MM, Maika S, Kuziel WA, Morrisey EE, Tucker PW, Foxp1 regulates cardiac outflow tract, endocardial cushion morphogenesis and myocyte proliferation and maturation. Development. 2004 Sep;131(18):4477-87
1J:84053 Wang T, Tamakoshi T, Uezato T, Shu F, Kanzaki-Kato N, Fu Y, Koseki H, Yoshida N, Sugiyama T, Miura N, Forkhead transcription factor Foxf2 (LUN)-deficient mice exhibit abnormal development of secondary palate. Dev Biol. 2003 Jul 1;259(1):83-94
4J:256746 Wang X, Shan X, Gregory-Evans CY, A mouse model of aniridia reveals the in vivo downstream targets of Pax6 driving iris and ciliary body development in the eye. Biochim Biophys Acta. 2017 Jan;1863(1):60-67
2J:134299 Weng J, Luo J, Cheng X, Jin C, Zhou X, Qu J, Tu L, Ai D, Li D, Wang J, Martin JF, Amendt BA, Liu M, Deletion of G protein-coupled receptor 48 leads to ocular anterior segment dysgenesis (ASD) through down-regulation of Pitx2. Proc Natl Acad Sci U S A. 2008 Apr 22;105(16):6081-6
8J:39636 Winnier GE, Hargett L, Hogan BL, The winged helix transcription factor MFH1 is required for proliferation and patterning of paraxial mesoderm in the mouse embryo. Genes Dev. 1997 Apr 1;11(7):926-40
6*J:57677 Winnier GE, Kume T, Deng K, Rogers R, Bundy J, Raines C, Walter MA, Hogan BL, Conway SJ, Roles for the winged helix transcription factors MF1 and MFH1 in cardiovascular development revealed by nonallelic noncomplementation of null alleles. Dev Biol. 1999 Sep 15;213(2):418-31
3*J:156017 Yokoyama S, Ito Y, Ueno-Kudoh H, Shimizu H, Uchibe K, Albini S, Mitsuoka K, Miyaki S, Kiso M, Nagai A, Hikata T, Osada T, Fukuda N, Yamashita S, Harada D, Mezzano V, Kasai M, Puri PL, Hayashizaki Y, Okado H, Hashimoto M, Asahara H, A systems approach reveals that the myogenesis genome network is regulated by the transcriptional repressor RP58. Dev Cell. 2009 Dec;17(6):836-48
3J:221866 Yoshida M, Hata K, Takashima R, Ono K, Nakamura E, Takahata Y, Murakami T, Iseki S, Takano-Yamamoto T, Nishimura R, Yoneda T, The transcription factor Foxc1 is necessary for Ihh-Gli2-regulated endochondral ossification. Nat Commun. 2015;6:6653
2J:166528 Zacharias AL, Gage PJ, Canonical Wnt/beta-catenin signaling is required for maintenance but not activation of Pitx2 expression in neural crest during eye development. Dev Dyn. 2010 Dec;239(12):3215-25

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last database update
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MGI 6.13
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