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Gene Expression Literature Summary
mesoderm posterior 2

80 matching records from 80 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.
Age E1.5 E2 E2.5 E3 E3.5 E4.5 E6.5 E7 E7.5 E8 E8.5 E9 E9.5 E10 E10.5 E11 E11.5 E12.5 E13.5 E15.5 E17.5 E P
Immunohistochemistry (section) 1 4 1 2 4
In situ RNA (section) 1 2 2 3 1 1 1 6 1
Immunohistochemistry (whole mount) 1 1
In situ RNA (whole mount) 1 3 3 6 12 9 28 1 20 2 9 2 3 1 11
In situ reporter (knock in) 1 1 3 1
Western blot 1
RT-PCR 1 1 1 1 1 1 1 3 2 1 1 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
Mesp2  mesoderm posterior 2   (Synonyms: bHLHc6)
Results  Reference
1J:220849 Achilleos A, Huffman NT, Marcinkiewicyz E, Seidah NG, Chen Q, Dallas SL, Trainor PA, Gorski JP, MBTPS1/SKI-1/S1P proprotein convertase is required for ECM signaling and axial elongation during somitogenesis and vertebral developmentdagger. Hum Mol Genet. 2015 May 15;24(10):2884-98
1*J:155226 Andersson ER, Bryjova L, Biris K, Yamaguchi TP, Arenas E, Bryja V, Genetic interaction between Lrp6 and Wnt5a during mouse development. Dev Dyn. 2009 Sep 30;239(1):237-245
1J: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
1J:132361 Aulehla A, Wiegraebe W, Baubet V, Wahl MB, Deng C, Taketo M, Lewandoski M, Pourquie O, A beta-catenin gradient links the clock and wavefront systems in mouse embryo segmentation. Nat Cell Biol. 2008 Feb;10(2):186-93
3J:54606 Barrantes IB, Elia AJ, Wunsch K, De Angelis MH, Mak TW, Rossant J, Conlon RA, Gossler A, de la Pompa JL, Interaction between Notch signalling and Lunatic fringe during somite boundary formation in the mouse. Curr Biol. 1999 May 6;9(9):470-80
1*J:63761 Beckers J, Schlautmann N, Gossler A, The mouse rib-vertebrae mutation disrupts anterior-posterior somite patterning and genetically interacts with a delta1 null allele. Mech Dev. 2000 Jul;95(1-2):35-46
1J:72325 Bessho Y, Sakata R, Komatsu S, Shiota K, Yamada S, Kageyama R, Dynamic expression and essential functions of Hes7 in somite segmentation. Genes Dev. 2001 Oct 15;15(20):2642-7
1*J:125766 Biris KK, Dunty WC Jr, Yamaguchi TP, Mouse Ripply2 is downstream of Wnt3a and is dynamically expressed during somitogenesis. Dev Dyn. 2007 Nov;236(11):3167-72
2J:190545 Boulet AM, Capecchi MR, Signaling by FGF4 and FGF8 is required for axial elongation of the mouse embryo. Dev Biol. 2012 Nov 15;371(2):235-45
1J:163977 Bryja V, Andersson ER, Schambony A, Esner M, Bryjova L, Biris KK, Hall AC, Kraft B, Cajanek L, Yamaguchi TP, Buckingham M, Arenas E, The extracellular domain of Lrp5/6 inhibits noncanonical Wnt signaling in vivo. Mol Biol Cell. 2009 Feb;20(3):924-36
1J:90513 Bussen M, Petry M, Schuster-Gossler K, Leitges M, Gossler A, Kispert A, The T-box transcription factor Tbx18 maintains the separation of anterior and posterior somite compartments. Genes Dev. 2004 May 15;18(10):1209-21
1J:239985 Casaca A, Novoa A, Mallo M, Hoxb6 can interfere with somitogenesis in the posterior embryo through a mechanism independent of its rib-promoting activity. Development. 2016 Feb 01;143(3):437-48
1*J:223069 Chal J, Oginuma M, Al Tanoury Z, Gobert B, Sumara O, Hick A, Bousson F, Zidouni Y, Mursch C, Moncuquet P, Tassy O, Vincent S, Miyanari A, Bera A, Garnier JM, Guevara G, Hestin M, Kennedy L, Hayashi S, Drayton B, Cherrier T, Gayraud-Morel B, Gussoni E, Relaix F, Tajbakhsh S, Pourquie O, Differentiation of pluripotent stem cells to muscle fiber to model Duchenne muscular dystrophy. Nat Biotechnol. 2015 Aug 3;
1J:205649 Chalamalasetty RB, Dunty WC Jr, Biris KK, Ajima R, Iacovino M, Beisaw A, Feigenbaum L, Chapman DL, Yoon JK, Kyba M, Yamaguchi TP, The Wnt3a/beta-catenin target gene Mesogenin1 controls the segmentation clock by activating a Notch signalling program. Nat Commun. 2011;2:390
2*J:122747 Chan T, Kondow A, Hosoya A, Hitachi K, Yukita A, Okabayashi K, Nakamura H, Ozawa H, Kiyonari H, Michiue T, Ito Y, Asashima M, Ripply2 is essential for precise somite formation during mouse early development. FEBS Lett. 2007 Jun 12;581(14):2691-6
1*J:105958 Chen J, Lu L, Shi S, Stanley P, Expression of Notch signaling pathway genes in mouse embryos lacking beta4galactosyltransferase-1. Gene Expr Patterns. 2006 Apr;6(4):376-82
1J:176969 Costello I, Pimeisl IM, Drager S, Bikoff EK, Robertson EJ, Arnold SJ, The T-box transcription factor Eomesodermin acts upstream of Mesp1 to specify cardiac mesoderm during mouse gastrulation. Nat Cell Biol. 2011 Sep;13(9):1084-91
5J:178365 Cunningham TJ, Zhao X, Duester G, Uncoupling of retinoic acid signaling from tailbud development before termination of body axis extension. Genesis. 2011 Oct;49(10):776-83
2J:129202 Dunty WC Jr, Biris KK, Chalamalasetty RB, Taketo MM, Lewandoski M, Yamaguchi TP, Wnt3a/beta-catenin signaling controls posterior body development by coordinating mesoderm formation and segmentation. Development. 2008 Jan;135(1):85-94
1*J:75954 Dunwoodie SL, Clements M, Sparrow DB, Sa X, Conlon RA, Beddington RS, Axial skeletal defects caused by mutation in the spondylocostal dysplasia/pudgy gene Dll3 are associated with disruption of the segmentation clock within the presomitic mesoderm. Development. 2002 Apr;129(7):1795-806
2J:154114 Ferjentsik Z, Hayashi S, Dale JK, Bessho Y, Herreman A, De Strooper B, del Monte G, de la Pompa JL, Maroto M, Notch is a critical component of the mouse somitogenesis oscillator and is essential for the formation of the somites. PLoS Genet. 2009 Sep;5(9):e1000662
1J:94049 Galceran J, Sustmann C, Hsu SC, Folberth S, Grosschedl R, LEF1-mediated regulation of Delta-like1 links Wnt and Notch signaling in somitogenesis. Genes Dev. 2004 Nov 15;18(22):2718-23
2*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
3*J:171409 GUDMAP Consortium, GUDMAP: the GenitoUrinary Development Molecular Anatomy Project. http://www.gudmap.org. 2004;
7*J:140465 Guo G, Huss M, Tong GQ, Wang C, Li Sun L, Clarke ND, Robson P, Resolution of cell fate decisions revealed by single-cell gene expression analysis from zygote to blastocyst. Dev Cell. 2010 Apr 20;18(4):675-85
1J:71983 Haraguchi S, Kitajima S, Takagi A, Takeda H, Inoue T, Saga Y, Transcriptional regulation of Mesp1 and Mesp2 genes: differential usage of enhancers during development. Mech Dev. 2001 Oct;108(1-2):59-69
4J:122556 Inoue T, Ota M, Mikoshiba K, Aruga J, Zic2 and Zic3 synergistically control neurulation and segmentation of paraxial mesoderm in mouse embryo. Dev Biol. 2007 Jun 15;306(2):669-84
1*J:66901 Johnson J, Rhee J, Parsons SM, Brown D, Olson EN, Rawls A, The anterior/posterior polarity of somites is disrupted in paraxis-deficient mice. Dev Biol. 2001 Jan 1;229(1):176-87
1J:216160 Jurberg AD, Aires R, Novoa A, Rowland JE, Mallo M, Compartment-dependent activities of Wnt3a/beta-catenin signaling during vertebrate axial extension. Dev Biol. 2014 Oct 15;394(2):253-63
3J:62984 Kitajima S, Takagi A, Inoue T, Saga Y, MesP1 and MesP2 are essential for the development of cardiac mesoderm. Development. 2000 Aug;127(15):3215-26
1*J:67969 Koizumi Ki, Nakajima M, Yuasa S, Saga Y, Sakai T, Kuriyama T, Shirasawa T, Koseki H, The role of presenilin 1 during somite segmentation. Development. 2001 Apr;128(8):1391-402
2*J:93008 Kokubu C, Heinzmann U, Kokubu T, Sakai N, Kubota T, Kawai M, Wahl MB, Galceran J, Grosschedl R, Ozono K, Imai K, Skeletal defects in ringelschwanz mutant mice reveal that Lrp6 is required for proper somitogenesis and osteogenesis. Development. 2004 Nov;131(21):5469-80
1*J:72025 Krebs LT, Deftos ML, Bevan MJ, Gridley T, The nrarp gene encodes an ankyrin-repeat protein that is transcriptionally regulated by the notch signaling pathway. Dev Biol. 2001 Oct 1;238(1):110-9
1J: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
5J:107136 Kusumi K, Mimoto MS, Covello KL, Beddington RS, Krumlauf R, Dunwoodie SL, Dll3 pudgy mutation differentially disrupts dynamic expression of somite genes. Genesis. 2004 Jun;39(2):115-21
1J:155850 Lee D, Park C, Lee H, Lugus JJ, Kim SH, Arentson E, Chung YS, Gomez G, Kyba M, Lin S, Janknecht R, Lim DS, Choi K, ER71 acts downstream of BMP, Notch, and Wnt signaling in blood and vessel progenitor specification. Cell Stem Cell. 2008 May 8;2(5):497-507
1J:197427 Lopez TP, Fan CM, Dynamic CREB family activity drives segmentation and posterior polarity specification in mammalian somitogenesis. Proc Natl Acad Sci U S A. 2013 May 28;110(22):E2019-27
1J: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
1J:151888 Mead TJ, Yutzey KE, Notch pathway regulation of chondrocyte differentiation and proliferation during appendicular and axial skeleton development. Proc Natl Acad Sci U S A. 2009 Aug 25;106(34):14420-5
1J:119568 Miura S, Davis S, Klingensmith J, Mishina Y, BMP signaling in the epiblast is required for proper recruitment of the prospective paraxial mesoderm and development of the somites. Development. 2006 Oct;133(19):3767-75
6J:119678 Morimoto M, Kiso M, Sasaki N, Saga Y, Cooperative Mesp activity is required for normal somitogenesis along the anterior-posterior axis. Dev Biol. 2006 Dec 15;300(2):687-98
8*J:123846 Morimoto M, Sasaki N, Oginuma M, Kiso M, Igarashi K, Aizaki K, Kanno J, Saga Y, The negative regulation of Mesp2 by mouse Ripply2 is required to establish the rostro-caudal patterning within a somite. Development. 2007 Apr;134(8):1561-9
3J:98581 Morimoto M, Takahashi Y, Endo M, Saga Y, The Mesp2 transcription factor establishes segmental borders by suppressing Notch activity. Nature. 2005 May 19;435(7040):354-9
2J:170831 Naiche LA, Holder N, Lewandoski M, FGF4 and FGF8 comprise the wavefront activity that controls somitogenesis. Proc Natl Acad Sci U S A. 2011 Mar 8;108(10):4018-23
1J:110233 Nakajima Y, Morimoto M, Takahashi Y, Koseki H, Saga Y, Identification of Epha4 enhancer required for segmental expression and the regulation by Mesp2. Development. 2006 Jul;133(13):2517-25
2*J:75945 Nomura-Kitabayashi A, Takahashi Y, Kitajima S, Inoue T, Takeda H, Saga Y, Hypomorphic Mesp allele distinguishes establishment of rostrocaudal polarity and segment border formation in somitogenesis. Development. 2002 May;129(10):2473-81
6J:139150 Oginuma M, Niwa Y, Chapman DL, Saga Y, Mesp2 and Tbx6 cooperatively create periodic patterns coupled with the clock machinery during mouse somitogenesis. Development. 2008 Aug;135(15):2555-62
6J:159983 Oginuma M, Takahashi Y, Kitajima S, Kiso M, Kanno J, Kimura A, Saga Y, The oscillation of Notch activation, but not its boundary, is required for somite border formation and rostral-caudal patterning within a somite. Development. 2010 May;137(9):1515-22
1J:146408 Pilon N, Oh K, Sylvestre JR, Savory JG, Lohnes D, Wnt signaling is a key mediator of Cdx1 expression in vivo. Development. 2007 Jun;134(12):2315-23
1J:82125 Rhee J, Takahashi Y, Saga Y, Wilson-Rawls J, Rawls A, The protocadherin papc is involved in the organization of the epithelium along the segmental border during mouse somitogenesis. Dev Biol. 2003 Feb 15;254(2):248-61
4*J:49903 Saga Y, Genetic rescue of segmentation defect in MesP2-deficient mice by MesP1 gene replacement. Mech Dev. 1998 Jul;75(1-2):53-66
8J:42014 Saga Y, Hata N, Koseki H, Taketo MM, Mesp2: a novel mouse gene expressed in the presegmented mesoderm and essential for segmentation initiation. Genes Dev. 1997 Jul 15;11(14):1827-39
2J:167045 Sasaki N, Kiso M, Kitagawa M, Saga Y, The repression of Notch signaling occurs via the destabilization of mastermind-like 1 by Mesp2 and is essential for somitogenesis. Development. 2011 Jan;138(1):55-64
1J:145608 Schuster-Gossler K, Harris B, Johnson KR, Serth J, Gossler A, Notch signalling in the paraxial mesoderm is most sensitive to reduced Pofut1 levels during early mouse development. BMC Dev Biol. 2009;9:6
1*J:88955 Schwabe GC, Trepczik B, Suring K, Brieske N, Tucker AS, Sharpe PT, Minami Y, Mundlos S, Ror2 knockout mouse as a model for the developmental pathology of autosomal recessive Robinow syndrome. Dev Dyn. 2004 Feb;229(2):400-10
1J:142110 Shifley ET, Cole SE, Lunatic fringe protein processing by proprotein convertases may contribute to the short protein half-life in the segmentation clock. Biochim Biophys Acta. 2008 Dec;1783(12):2384-90
2J:131837 Shifley ET, Vanhorn KM, Perez-Balaguer A, Franklin JD, Weinstein M, Cole SE, Oscillatory lunatic fringe activity is crucial for segmentation of the anterior but not posterior skeleton. Development. 2008 Mar;135(5):899-908
1J:129404 Sirbu IO, Duester G, Retinoic-acid signalling in node ectoderm and posterior neural plate directs left-right patterning of somitic mesoderm. Nat Cell Biol. 2006 Mar;8(3):271-7
1J:186213 Sparrow DB, Chapman G, Smith AJ, Mattar MZ, Major JA, O'Reilly VC, Saga Y, Zackai EH, Dormans JP, Alman BA, McGregor L, Kageyama R, Kusumi K, Dunwoodie SL, A mechanism for gene-environment interaction in the etiology of congenital scoliosis. Cell. 2012 Apr 13;149(2):295-306
2*J:161418 Takahashi J, Ohbayashi A, Oginuma M, Saito D, Mochizuki A, Saga Y, Takada S, Analysis of Ripply1/2-deficient mouse embryos reveals a mechanism underlying the rostro-caudal patterning within a somite. Dev Biol. 2010 Jun 15;342(2):134-45
2J:84596 Takahashi Y, Inoue T, Gossler A, Saga Y, Feedback loops comprising Dll1, Dll3 and Mesp2, and differential involvement of Psen1 are essential for rostrocaudal patterning of somites. Development. 2003 Sep;130(18):4259-68
1J:120635 Takahashi Y, Kitajima S, Inoue T, Kanno J, Saga Y, Differential contributions of Mesp1 and Mesp2 to the epithelialization and rostro-caudal patterning of somites. Development. 2005 Feb;132(4):787-96
5J:78989 Takahashi Y, Koizumi K, Takagi A, Kitajima S, Inoue T, Koseki H, Saga Y, Mesp2 initiates somite segmentation through the Notch signalling pathway. Nat Genet. 2000 Aug;25(4):390-6
1J:125818 Teppner I, Becker S, de Angelis MH, Gossler A, Beckers J, Compartmentalised expression of Delta-like 1 in epithelial somites is required for the formation of intervertebral joints. BMC Dev Biol. 2007;7:68
1J:185604 van Rooijen C, Simmini S, Bialecka M, Neijts R, van de Ven C, Beck F, Deschamps J, Evolutionarily conserved requirement of Cdx for post-occipital tissue emergence. Development. 2012 Jul;139(14):2576-83
1J:97659 Vermot J, Llamas JG, Fraulob V, Niederreither K, Chambon P, Dolle P, Retinoic acid controls the bilateral symmetry of somite formation in the mouse embryo. Science. 2005 Apr 22;308(5721):563-6
1J:70983 Wang CZ, Yano H, Nagashima K, Seino S, The Na+-driven Cl-/HCO3- exchanger. Cloning, tissue distribution, and functional characterization. J Biol Chem. 2000 Nov 10;275(45):35486-90
1J:238549 Warrier S, Nuwayhid S, Sabatino JA, Sugrue KF, Zohn IE, Supt20 is required for development of the axial skeleton. Dev Biol. 2017 Jan 15;421(2):245-257
1*J:82167 White PH, Farkas DR, McFadden EE, Chapman DL, Defective somite patterning in mouse embryos with reduced levels of Tbx6. Development. 2003 Apr;130(8):1681-90
1J:121317 William DA, Saitta B, Gibson JD, Traas J, Markov V, Gonzalez DM, Sewell W, Anderson DM, Pratt SC, Rappaport EF, Kusumi K, Identification of oscillatory genes in somitogenesis from functional genomic analysis of a human mesenchymal stem cell model. Dev Biol. 2007 May 1;305(1):172-86
3J:208899 Williams DR, Shifley ET, Lather JD, Cole SE, Posterior skeletal development and the segmentation clock period are sensitive to Lfng dosage during somitogenesis. Dev Biol. 2014 Apr 15;388(2):159-69
2J:141112 Yasuhiko Y, Kitajima S, Takahashi Y, Oginuma M, Kagiwada H, Kanno J, Saga Y, Functional importance of evolutionally conserved Tbx6 binding sites in the presomitic mesoderm-specific enhancer of Mesp2. Development. 2008 Nov;135(21):3511-9
1*J:62914 Yoon JK, Moon RT, Wold B, The bHLH class protein pMesogenin1 can specify paraxial mesoderm phenotypes. Dev Biol. 2000 Jun 15;222(2):376-91
2J:66514 Yoon JK, Wold B, The bHLH regulator pMesogenin1 is required for maturation and segmentation of paraxial mesoderm. Genes Dev. 2000 Dec 15;14(24):3204-14
1J:154781 Young T, Rowland JE, van de Ven C, Bialecka M, Novoa A, Carapuco M, van Nes J, de Graaff W, Duluc I, Freund JN, Beck F, Mallo M, Deschamps J, Cdx and Hox genes differentially regulate posterior axial growth in mammalian embryos. Dev Cell. 2009 Oct;17(4):516-26
1J:70547 Zakany J, Kmita M, Alarcon P, de la Pompa JL, Duboule D, Localized and transient transcription of Hox genes suggests a link between patterning and the segmentation clock. Cell. 2001 Jul 27;106(2):207-17
1J:77247 Zhang N, Norton CR, Gridley T, Segmentation defects of Notch pathway mutants and absence of a synergistic phenotype in lunatic fringe/radical fringe double mutant mice. Genesis. 2002 May;33(1):21-8
3J:170604 Zhang Z, O'Rourke JR, McManus MT, Lewandoski M, Harfe BD, Sun X, The microRNA-processing enzyme Dicer is dispensable for somite segmentation but essential for limb bud positioning. Dev Biol. 2011 Mar 15;351(2):254-65
1J:206311 Zhao T, Gan Q, Stokes A, Lassiter RN, Wang Y, Chan J, Han JX, Pleasure DE, Epstein JA, Zhou CJ, beta-catenin regulates Pax3 and Cdx2 for caudal neural tube closure and elongation. Development. 2014 Jan;141(1):148-57
7J:221162 Zhao W, Ajima R, Ninomiya Y, Saga Y, Segmental border is defined by Ripply2-mediated Tbx6 repression independent of Mesp2. Dev Biol. 2015 Apr 1;400(1):105-17

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