Gene Expression Literature Summary

• Symbol: Wnt11
• Name: wingless-type MMTV integration site family, member 11
• ID: MGI:101948

231 matching records from 231 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.

Age	E0.5	E1	E1.5	E2	E3	E3.5	E4	E4.5	E5.5	E6.5	E7	E7.5	E8	E8.5	E9	E9.5	E10	E10.5	E11	E11.5	E12	E12.5	E13	E13.5	E14	E14.5	E15	E15.5	E16	E16.5	E17	E17.5	E18	E18.5	E	P
Immunohistochemistry (section)																		1				2		2		1	1		1	1		1	1	1		2
In situ RNA (section)												1		3	1	6		8	1	12	3	19	1	19	3	25		15	1	11	1	4	1	4	6	15
Immunohistochemistry (whole mount)	1	1																																		1
In situ RNA (whole mount)										1	3	2	6	7	5	19	1	11	6	21	3	19		7	1	9		7		2				2	6	2
In situ reporter (knock in)																				2								1								2
RT-PCR	1	1	1	1	2	2	1	1	1	1		1		2	1	5		5	1	15	1	18	2	14	4	16	3	6	3	7	1	1	2	8	1	28
cDNA clones																		1		1						2				1
RNase protection																																				1

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

Wnt11  wingless-type MMTV integration site family, member 11
Results	Reference
4	J:169706 Abdul-Ghani M, Dufort D, Stiles R, De Repentigny Y, Kothary R, Megeney LA, Wnt11 promotes cardiomyocyte development by caspase-mediated suppression of canonical Wnt signals. Mol Cell Biol. 2011 Jan;31(1):163-78
2	J:21464 Adamson MC, Dennis C, Delaney S, Christiansen J, Monkley S, Kozak CA, Wainwright B, Isolation and genetic mapping of two novel members of the murine Wnt gene family, Wnt11 and Wnt12, and the mapping of Wnt5a and Wnt7a. Genomics. 1994 Nov 1;24(1):9-13
1	J:185715 Ainoya K, Moriguchi T, Ohmori S, Souma T, Takai J, Morita M, Chandler KJ, Mortlock DP, Shimizu R, Engel JD, Lim KC, Yamamoto M, UG4 enhancer-driven GATA-2 and bone morphogenetic protein 4 complementation remedies the CAKUT phenotype in Gata2 hypomorphic mutant mice. Mol Cell Biol. 2012 Jun;32(12):2312-22
3	J:220460 Andre P, Song H, Kim W, Kispert A, Yang Y, Wnt5a and Wnt11 regulate mammalian anterior-posterior axis elongation. Development. 2015 Apr 15;142(8):1516-27
1	J:96485 Basson MA, Akbulut S, Watson-Johnson J, Simon R, Carroll TJ, Shakya R, Gross I, Martin GR, Lufkin T, McMahon AP, Wilson PD, Costantini FD, Mason IJ, Licht JD, Sprouty1 is a critical regulator of GDNF/RET-mediated kidney induction. Dev Cell. 2005 Feb;8(2):229-39
1	J:208419 Basta JM, Robbins L, Kiefer SM, Dorsett D, Rauchman M, Sall1 balances self-renewal and differentiation of renal progenitor cells. Development. 2014 Mar;141(5):1047-58
1*	J:135507 Bayle J, Fitch J, Jacobsen K, Kumar R, Lafyatis R, Lemaire R, Increased expression of Wnt2 and SFRP4 in Tsk mouse skin: role of Wnt signaling in altered dermal fibrillin deposition and systemic sclerosis. J Invest Dermatol. 2008 Apr;128(4):871-81
1	J:221151 Bellessort B, Bachelot A, Heude E, Alfama G, Fontaine A, Le Cardinal M, Treier M, Levi G, Role of Foxl2 in uterine maturation and function. Hum Mol Genet. 2015 Jun 1;24(11):3092-103
1	J:227622 Bellessort B, Le Cardinal M, Bachelot A, Narboux-Neme N, Garagnani P, Pirazzini C, Barbieri O, Mastracci L, Jonchere V, Duvernois-Berthet E, Fontaine A, Alfama G, Levi G, Dlx5 and Dlx6 control uterine adenogenesis during post-natal maturation: possible consequences for endometriosis. Hum Mol Genet. 2016 Jan 1;25(1):97-108
1	J:341993 Bernheim S, Borgel A, Le Garrec JF, Perthame E, Desgrange A, Michel C, Guillemot L, Sart S, Baroud CN, Krezel W, Raimondi F, Bonnet D, Zaffran S, Houyel L, Meilhac SM, Identification of Greb1l as a genetic determinant of crisscross heart in mice showing torsion of the heart tube by shortage of progenitor cells. Dev Cell. 2023 Oct 13;
5*	J:152099 Bi Y, Huang J, He Y, Zhu GH, Su Y, He BC, Luo J, Wang Y, Kang Q, Luo Q, Chen L, Zuo GW, Jiang W, Liu B, Shi Q, Tang M, Zhang BQ, Weng Y, Huang A, Zhou L, Feng T, Luu HH, Haydon RC, He TC, Tang N, Wnt antagonist SFRP3 inhibits the differentiation of mouse hepatic progenitor cells. J Cell Biochem. 2009 Jun 26;108(1):295-303
4*	J:93300 Blackshaw S, Harpavat S, Trimarchi J, Cai L, Huang H, Kuo WP, Weber G, Lee K, Fraioli RE, Cho SH, Yung R, Asch E, Ohno-Machado L, Wong WH, Cepko CL, Genomic analysis of mouse retinal development. PLoS Biol. 2004 Oct;2(9):E247
1	J:229163 Blake J, Hu D, Cain JE, Rosenblum ND, Urogenital development in Pallister-Hall syndrome is disrupted in a cell-lineage-specific manner by constitutive expression of GLI3 repressor. Hum Mol Genet. 2016 Feb 1;25(3):437-47
2	J:283152 Boivin FJ, Bridgewater D, beta-Catenin in stromal progenitors controls medullary stromal development. Am J Physiol Renal Physiol. 2018 Jun 1;314(6):F1177-F1187
2	J:232968 Boivin FJ, Sarin S, Lim J, Javidan A, Svajger B, Khalili H, Bridgewater D, Stromally expressed beta-catenin modulates Wnt9b signaling in the ureteric epithelium. PLoS One. 2015;10(3):e0120347
1*	J:136068 Bridgewater D, Cox B, Cain J, Lau A, Athaide V, Gill PS, Kuure S, Sainio K, Rosenblum ND, Canonical WNT/beta-catenin signaling is required for ureteric branching. Dev Biol. 2008 May 1;317(1):83-94
1	J:48481 Bullock SL, Fletcher JM, Beddington RS, Wilson VA, Renal agenesis in mice homozygous for a gene trap mutation in the gene encoding heparan sulfate 2-sulfotransferase. Genes Dev. 1998 Jun 15;12(12):1894-906
2	J:95093 Cai CL, Liang X, Shi Y, Chu PH, Pfaff SL, Chen J, Evans S, Isl1 identifies a cardiac progenitor population that proliferates prior to differentiation and contributes a majority of cells to the heart. Dev Cell. 2003 Dec;5(6):877-89
1	J:98516 Cai CL, Zhou W, Yang L, Bu L, Qyang Y, Zhang X, Li X, Rosenfeld MG, Chen J, Evans S, T-box genes coordinate regional rates of proliferation and regional specification during cardiogenesis. Development. 2005 May;132(10):2475-87
1	J:172032 Cain JE, Islam E, Haxho F, Blake J, Rosenblum ND, GLI3 repressor controls functional development of the mouse ureter. J Clin Invest. 2011 Mar 1;121(3):1199-206
2	J:154102 Cain JE, Islam E, Haxho F, Chen L, Bridgewater D, Nieuwenhuis E, Hui CC, Rosenblum ND, GLI3 repressor controls nephron number via regulation of Wnt11 and Ret in ureteric tip cells. PLoS One. 2009;4(10):e7313
2	J:214093 Cambier L, Plate M, Sucov HM, Pashmforoush M, Nkx2-5 regulates cardiac growth through modulation of Wnt signaling by R-spondin3. Development. 2014 Aug;141(15):2959-71
3	J:100575 Carroll TJ, Park JS, Hayashi S, Majumdar A, McMahon AP, Wnt9b plays a central role in the regulation of mesenchymal to epithelial transitions underlying organogenesis of the mammalian urogenital system. Dev Cell. 2005 Aug;9(2):283-92
1*	J:316185 Cesario J, Ha S, Kim J, Kataria N, Jeong J, Candidate positive targets of LHX6 and LHX8 transcription factors in the developing upper jaw. Gene Expr Patterns. 2021 Nov 30;43:119227
1	J:239523 Chen CM, Orefice LL, Chiu SL, LeGates TA, Hattar S, Huganir RL, Zhao H, Xu B, Kuruvilla R, Wnt5a is essential for hippocampal dendritic maintenance and spatial learning and memory in adult mice. Proc Natl Acad Sci U S A. 2017 Jan 24;114(4):E619-E628
1	J:183485 Chen D, Jarrell A, Guo C, Lang R, Atit R, Dermal beta-catenin activity in response to epidermal Wnt ligands is required for fibroblast proliferation and hair follicle initiation. Development. 2012 Apr;139(8):1522-33
2	J:238877 Chen S, Yao X, Li Y, Saifudeen Z, Bachvarov D, El-Dahr SS, Histone deacetylase 1 and 2 regulate Wnt and p53 pathways in the ureteric bud epithelium. Development. 2015 Mar 15;142(6):1180-92
1	J:307439 Chen SR, Tang JX, Cheng JM, Hao XX, Wang YQ, Wang XX, Liu YX, Does murine spermatogenesis require WNT signalling? A lesson from Gpr177 conditional knockout mouse models. Cell Death Dis. 2016 Jun 30;7(6):e2281
1	J:343798 Cheng T, Agwu C, Shim K, Wang B, Jain S, Mahjoub MR, Aberrant centrosome biogenesis disrupts nephron and collecting duct progenitor growth and fate resulting in fibrocystic kidney disease. Development. 2023 Dec 15;150(24)
1	J:203312 Chi L, Galtseva A, Chen L, Mo R, Hui CC, Rosenblum ND, Kif3a controls murine nephron number via GLI3 repressor, cell survival, and gene expression in a lineage-specific manner. PLoS One. 2013;8(6):e65448
5*	J:180958 Chi L, Saarela U, Railo A, Prunskaite-Hyyrylainen R, Skovorodkin I, Anthony S, Katsu K, Liu Y, Shan J, Salgueiro AM, Belo JA, Davies J, Yokouchi Y, Vainio SJ, A secreted BMP antagonist, Cer1, fine tunes the spatial organization of the ureteric bud tree during mouse kidney development. PLoS One. 2011;6(11):e27676
2	J:91010 Chi L, Zhang S, Lin Y, Prunskaite-Hyyrylainen R, Vuolteenaho R, Itaranta P, Vainio S, Sprouty proteins regulate ureteric branching by coordinating reciprocal epithelial Wnt11, mesenchymal Gdnf and stromal Fgf7 signalling during kidney development. Development. 2004 Jul;131(14):3345-56
1	J:298672 Christ A, Marczenke M, Willnow TE, LRP2 controls sonic hedgehog-dependent differentiation of cardiac progenitor cells during outflow tract formation. Hum Mol Genet. 2020 Nov 25;29(19):3183-3196
10*	J:26524 Christiansen JH, Dennis CL, Wicking CA, Monkley SJ, Wilkinson DG, Wainwright BJ, Murine Wnt-11 and Wnt-12 have temporally and spatially restricted expression patterns during embryonic development. Mech Dev. 1995 Jun;51(2-3):341-50
3	J:98338 Chu EY, Hens J, Andl T, Kairo A, Yamaguchi TP, Brisken C, Glick A, Wysolmerski JJ, Millar SE, Canonical WNT signaling promotes mammary placode development and is essential for initiation of mammary gland morphogenesis. Development. 2004 Oct;131(19):4819-29
3	J:184511 Cohen ED, Miller MF, Wang Z, Moon RT, Morrisey EE, Wnt5a and Wnt11 are essential for second heart field progenitor development. Development. 2012 Jun;139(11):1931-40
1	J:229484 Conte D, Garaffo G, Lo Iacono N, Mantero S, Piccolo S, Cordenonsi M, Perez-Morga D, Orecchia V, Poli V, Merlo GR, The apical ectodermal ridge of the mouse model of ectrodactyly Dlx5;Dlx6-/- shows altered stratification and cell polarity, which are restored by exogenous Wnt5a ligand. Hum Mol Genet. 2016 Feb 15;25(4):740-54
1	J:254209 Da Silva F, Rocha AS, Motamedi FJ, Massa F, Basboga C, Morrison H, Wagner KD, Schedl A, Coronary Artery Formation Is Driven by Localized Expression of R-spondin3. Cell Rep. 2017 Aug 22;20(8):1745-1754
1*	J:82803 Dabdoub A, Donohue MJ, Brennan A, Wolf V, Montcouquiol M, Sassoon DA, Hseih JC, Rubin JS, Salinas PC, Kelley MW, Wnt signaling mediates reorientation of outer hair cell stereociliary bundles in the mammalian cochlea. Development. 2003 Jun;130(11):2375-84
1	J:71588 de Graaff E, Srinivas S, Kilkenny C, D'Agati V, Mankoo BS, Costantini F, Pachnis V, Differential activities of the RET tyrosine kinase receptor isoforms during mammalian embryogenesis. Genes Dev. 2001 Sep 15;15(18):2433-44
2	J:270523 Desgrange A, Heliot C, Skovorodkin I, Akram SU, Heikkila J, Ronkainen VP, Miinalainen I, Vainio SJ, Cereghini S, HNF1B controls epithelial organization and cell polarity during ureteric bud branching and collecting duct morphogenesis. Development. 2017 Dec 15;144(24):4704-4719
1	J:300510 Desgrange A, Le Garrec JF, Bernheim S, Bonnelykke TH, Meilhac SM, Transient Nodal Signaling in Left Precursors Coordinates Opposed Asymmetries Shaping the Heart Loop. Dev Cell. 2020 Nov 23;55(4):413-431.e6
1	J:173576 Di Giovanni V, Alday A, Chi L, Mishina Y, Rosenblum ND, Alk3 controls nephron number and androgen production via lineage-specific effects in intermediate mesoderm. Development. 2011 Jul;138(13):2717-27
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1*	J:293794 Durbin MD, O'Kane J, Lorentz S, Firulli AB, Ware SM, SHROOM3 is downstream of the planar cell polarity pathway and loss-of-function results in congenital heart defects. Dev Biol. 2020 Aug 15;464(2):124-136
1	J:311466 Firulli BA, Toolan KP, Harkin J, Millar H, Pineda S, Firulli AB, The HAND1 frameshift A126FS mutation does not cause hypoplastic left heart syndrome in mice. Cardiovasc Res. 2017 Dec 1;113(14):1732-1742
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2	J:196515 Fu J, Hsu W, Epidermal Wnt controls hair follicle induction by orchestrating dynamic signaling crosstalk between the epidermis and dermis. J Invest Dermatol. 2013 Apr;133(4):890-8
1	J:331853 Gao R, Liang X, Cheedipudi S, Cordero J, Jisng X, Zhang Q, Caputo L, Gunther S, Kuenne C, Ren Y, Bhattacharya S, Yuan X, Barreto G, Chen Y, Braun T, Evans SM, Sun Y, Dobreva G, Pioneering function of Isl1 in the epigenetic control of cardiomyocyte cell fate. Cell Res. 2019 Jun;29(6):486-501
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2*	J:253527 Geng R, Noda T, Mulvaney JF, Lin VY, Edge AS, Dabdoub A, Comprehensive Expression of Wnt Signaling Pathway Genes during Development and Maturation of the Mouse Cochlea. PLoS One. 2016;11(2):e0148339
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1	J:229529 Gibbs BC, Damerla RR, Vladar EK, Chatterjee B, Wan Y, Liu X, Cui C, Gabriel GC, Zahid M, Yagi H, Szabo-Rogers HL, Suyama KL, Axelrod JD, Lo CW, Prickle1 mutation causes planar cell polarity and directional cell migration defects associated with cardiac outflow tract anomalies and other structural birth defects. Biol Open. 2016;5(3):323-35
3	J:245873 Goddard LM, Duchemin AL, Ramalingan H, Wu B, Chen M, Bamezai S, Yang J, Li L, Morley MP, Wang T, Scherrer-Crosbie M, Frank DB, Engleka KA, Jameson SC, Morrisey EE, Carroll TJ, Zhou B, Vermot J, Kahn ML, Hemodynamic Forces Sculpt Developing Heart Valves through a KLF2-WNT9B Paracrine Signaling Axis. Dev Cell. 2017 Nov 06;43(3):274-289.e5
1	J:211696 Goggolidou P, Hadjirin NF, Bak A, Papakrivopoulou E, Hilton H, Norris DP, Dean CH, Atmin mediates kidney morphogenesis by modulating Wnt signaling. Hum Mol Genet. 2014 Oct 15;23(20):5303-16
2	J:172359 Goncalves A, Zeller R, Genetic Analysis Reveals an Unexpected Role of BMP7 in Initiation of Ureteric Bud Outgrowth in Mouse Embryos. PLoS One. 2011;6(4):e19370
2	J:226667 Goodnough LH, Dinuoscio GJ, Ferguson JW, Williams T, Lang RA, Atit RP, Distinct requirements for cranial ectoderm and mesenchyme-derived wnts in specification and differentiation of osteoblast and dermal progenitors. PLoS Genet. 2014 Feb;10(2):e1004152
3	J:202907 Grigoryan T, Stein S, Qi J, Wende H, Garratt AN, Nave KA, Birchmeier C, Birchmeier W, Wnt/Rspondin/beta-catenin signals control axonal sorting and lineage progression in Schwann cell development. Proc Natl Acad Sci U S A. 2013 Nov 5;110(45):18174-9
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1	J:232894 Hrycaj SM, Dye BR, Baker NC, Larsen BM, Burke AC, Spence JR, Wellik DM, Hox5 Genes Regulate the Wnt2/2b-Bmp4-Signaling Axis during Lung Development. Cell Rep. 2015 Aug 11;12(6):903-12
4	J:291050 Ide S, Finer G, Maezawa Y, Onay T, Souma T, Scott R, Ide K, Akimoto Y, Li C, Ye M, Zhao X, Baba Y, Minamizuka T, Jin J, Takemoto M, Yokote K, Quaggin SE, Transcription Factor 21 Is Required for Branching Morphogenesis and Regulates the Gdnf-Axis in Kidney Development. J Am Soc Nephrol. 2018 Dec;29(12):2795-2808
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1	J:273296 Kaiser K, Gyllborg D, Prochazka J, Salasova A, Kompanikova P, Molina FL, Laguna-Goya R, Radaszkiewicz T, Harnos J, Prochazkova M, Potesil D, Barker RA, Casado AG, Zdrahal Z, Sedlacek R, Arenas E, Villaescusa JC, Bryja V, WNT5A is transported via lipoprotein particles in the cerebrospinal fluid to regulate hindbrain morphogenesis. Nat Commun. 2019 Apr 2;10(1):1498
1	J:220461 Kann M, Bae E, Lenz MO, Li L, Trannguyen B, Schumacher VA, Taglienti ME, Bordeianou L, Hartwig S, Rinschen MM, Schermer B, Benzing T, Fan CM, Kreidberg JA, WT1 targets Gas1 to maintain nephron progenitor cells by modulating FGF signals. Development. 2015 Apr 1;142(7):1254-66
3	J:160547 Karner CM, Dietrich MF, Johnson EB, Kappesser N, Tennert C, Percin F, Wollnik B, Carroll TJ, Herz J, Lrp4 regulates initiation of ureteric budding and is crucial for kidney formation--a mouse model for Cenani-Lenz syndrome. PLoS One. 2010;5(4):e10418
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1	J:189974 Kiefer SM, Robbins L, Rauchman M, Conditional expression of Wnt9b in Six2-positive cells disrupts stomach and kidney function. PLoS One. 2012;7(8):e43098
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2	J:98831 Kobayashi A, Kwan KM, Carroll TJ, McMahon AP, Mendelsohn CL, Behringer RR, Distinct and sequential tissue-specific activities of the LIM-class homeobox gene Lim1 for tubular morphogenesis during kidney development. Development. 2005 Jun;132(12):2809-23
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1	J:117058 Kurek D, Garinis GA, van Doorninck JH, van der Wees J, Grosveld FG, Transcriptome and phenotypic analysis reveals Gata3-dependent signalling pathways in murine hair follicles. Development. 2007 Jan;134(2):261-72
1	J:167529 Kuure S, Cebrian C, Machingo Q, Lu BC, Chi X, Hyink D, D'Agati V, Gurniak C, Witke W, Costantini F, Actin depolymerizing factors cofilin1 and destrin are required for ureteric bud branching morphogenesis. PLoS Genet. 2010;6(10):e1001176
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3	J:239872 Larsen BM, Hrycaj SM, Newman M, Li Y, Wellik DM, Mesenchymal Hox6 function is required for mouse pancreatic endocrine cell differentiation. Development. 2015 Nov 15;142(22):3859-68
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