Gene Expression Literature Summary

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
1	J: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
1*	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
1*	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
1	J: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
1	J: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
1	J: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
1	J: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
1	J: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
1	J: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
1	J: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
1*	J: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
1	J: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
1*	J: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
1*	J:308975 Takenoshita M, Takechi M, Vu Hoang T, Furutera T, Akagawa C, Namangkalakul W, Aoto K, Kume T, Miyashin M, Iwamoto T, Iseki S, Cell lineage- and expression-based inference of the roles of forkhead box transcription factor Foxc2 in craniofacial development. Dev Dyn. 2021 Aug;250(8):1125-1139
1	J: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
1*	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
1*	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