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Gene Expression Literature Summary
Symbol
Name
ID
Mdm2
transformed mouse 3T3 cell double minute 2
MGI:96952

65 matching records from 65 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.
Age E0.5 E1 E2.5 E3.5 E4 E6 E6.5 E7.5 E8 E8.5 E9 E9.5 E10 E10.5 E11.5 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 2 1 1 1 3 1 1 1 1 2
In situ RNA (section) 2 1 1 1 2 2 2 1
In situ RNA (whole mount) 1 1 1 1 1 1 1 1 1
Northern blot 1 1 1 2
Western blot 1 1 1 1 1 1 1 1 1 2 2 2 1 8
RT-PCR 1 2 2 1 2 5 5 2 1 1 4 1 3 2 2 1 1 1 2 1 4 10
cDNA clones 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
Mdm2  transformed mouse 3T3 cell double minute 2   (Synonyms: 1700007J15Rik, Mdm-2)
Results  Reference
1J:326544 Alam SS, Kumar S, Beauchamp MC, Bareke E, Boucher A, Nzirorera N, Dong Y, Padilla R, Zhang SJ, Majewski J, Jerome-Majewska LA, Snrpb is required in murine neural crest cells for proper splicing and craniofacial morphogenesis. Dis Model Mech. 2022 Jun 1;15(6):dmm049544
1J:275626 Anamthathmakula P, Miryala CSJ, Moreci RS, Kyathanahalli C, Hassan SS, Condon JC, Jeyasuria P, Steroidogenic Factor 1 (Nr5a1) is Required for Sertoli Cell Survival Post Sex Determination. Sci Rep. 2019 Mar 14;9(1):4452
1*J:327815 Beauchamp MC, Boucher A, Dong Y, Aber R, Jerome-Majewska LA, Craniofacial Defects in Embryos with Homozygous Deletion of Eftud2 in Their Neural Crest Cells Are Not Rescued by Trp53 Deletion. Int J Mol Sci. 2022 Aug 12;23(16)
1J:306031 Beauchamp MC, Djedid A, Bareke E, Merkuri F, Aber R, Tam AS, Lines MA, Boycott KM, Stirling PC, Fish JL, Majewski J, Jerome-Majewska LA, Mutation in Eftud2 causes craniofacial defects in mice via mis-splicing of Mdm2 and increased P53. Hum Mol Genet. 2021 May 28;30(9):739-757
1J:319558 Bizen N, Bepari AK, Zhou L, Abe M, Sakimura K, Ono K, Takebayashi H, Ddx20, an Olig2 binding factor, governs the survival of neural and oligodendrocyte progenitor cells via proper Mdm2 splicing and p53 suppression. Cell Death Differ. 2022;
1J:132251 Boesten LS, Zadelaar SM, De Clercq S, Francoz S, van Nieuwkoop A, Biessen EA, Hofmann F, Feil S, Feil R, Jochemsen AG, Zurcher C, Havekes LM, van Vlijmen BJ, Marine JC, Mdm2, but not Mdm4, protects terminally differentiated smooth muscle cells from p53-mediated caspase-3-independent cell death. Cell Death Differ. 2006 Dec;13(12):2089-98
1J:284146 Bowen ME, McClendon J, Long HK, Sorayya A, Van Nostrand JL, Wysocka J, Attardi LD, The Spatiotemporal Pattern and Intensity of p53 Activation Dictates Phenotypic Diversity in p53-Driven Developmental Syndromes. Dev Cell. 2019 Jul 22;50(2):212-228.e6
1J:229460 Chaffee BR, Hoang TV, Leonard MR, Bruney DG, Wagner BD, Dowd JR, Leone G, Ostrowski MC, Robinson ML, FGFR and PTEN signaling interact during lens development to regulate cell survival. Dev Biol. 2016 Feb 15;410(2):150-63
3J:144707 Chiu SY, Asai N, Costantini F, Hsu W, SUMO-specific protease 2 is essential for modulating p53-Mdm2 in development of trophoblast stem cell niches and lineages. PLoS Biol. 2008 Dec 16;6(12):e310
1J:101353 Colombo E, Bonetti P, Lazzerini Denchi E, Martinelli P, Zamponi R, Marine JC, Helin K, Falini B, Pelicci PG, Nucleophosmin is required for DNA integrity and p19Arf protein stability. Mol Cell Biol. 2005 Oct;25(20):8874-86
6*J:69786 Daujat S, Neel H, Piette J, Preferential expression of Mdm2 oncogene during the development of neural crest and its derivatives in mouse early embryogenesis. Mech Dev. 2001 May;103(1-2):163-5
1J:317403 De Clercq S, Gembarska A, Denecker G, Maetens M, Naessens M, Haigh K, Haigh JJ, Marine JC, Widespread overexpression of epitope-tagged Mdm4 does not accelerate tumor formation in vivo. Mol Cell Biol. 2010 Nov;30(22):5394-405
6*J:32892 de Oca Luna RM, Tabor AD, Eberspaecher H, Hulboy DL, Worth LL, Colman MS, Finlay CA, Lozano G, The organization and expression of the mdm2 gene. Genomics. 1996 May 1;33(3):352-7
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
1J:305174 Dong X, Kwan KM, Yin Yang 1 is critical for mid-hindbrain neuroepithelium development and involved in cerebellar agenesis. Mol Brain. 2020 Jul 23;13(1):104
1J:100764 Doumont G, Martoriati A, Beekman C, Bogaerts S, Mee PJ, Bureau F, Colombo E, Alcalay M, Bellefroid E, Marchesi F, Scanziani E, Pelicci PG, Marine JC, G1 checkpoint failure and increased tumor susceptibility in mice lacking the novel p53 target Ptprv. EMBO J. 2005 Sep 7;24(17):3093-103
2J:337771 El-Saafin F, Bergamasco MI, Chen Y, May RE, Esakky P, Hediyeh-Zadeh S, Dixon M, Wilcox S, Davis MJ, Strasser A, Smyth GK, Thomas T, Voss AK, Loss of TAF8 causes TFIID dysfunction and p53-mediated apoptotic neuronal cell death. Cell Death Differ. 2022 May;29(5):1013-1027
1J:258502 Fouchecourt S, Livera G, Messiaen S, Fumel B, Parent AS, Marine JC, Monget P, Apoptosis of Sertoli cells after conditional ablation of murine double minute 2 (Mdm2) gene is p53-dependent and results in male sterility. Cell Death Differ. 2016 Mar;23(3):521-30
3*J:46439 Freeman TC, Dixon AK, Campbell EA, Tait TM, Richardson PJ, Rice KM, Maslen GL, Metcalfe AD, Streuli CH, Bentley DR, Expression Mapping of Mouse Genes. MGI Direct Data Submission. 1998;
1J:316577 Furlan A, Lamballe F, Stagni V, Hussain A, Richelme S, Prodosmo A, Moumen A, Brun C, Del Barco Barrantes I, Arthur JS, Koleske AJ, Nebreda AR, Barila D, Maina F, Met acts through Abl to regulate p53 transcriptional outcomes and cell survival in the developing liver. J Hepatol. 2012 Dec;57(6):1292-8
1J:112569 Golestaneh N, Tang Y, Katuri V, Jogunoori W, Mishra L, Mishra B, Cell cycle deregulation and loss of stem cell phenotype in the subventricular zone of TGF-beta adaptor elf(-/-) mouse brain. Brain Res. 2006 Sep 7;1108(1):45-53
1*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
1*J:171409 GUDMAP Consortium, GUDMAP: the GenitoUrinary Development Molecular Anatomy Project. www.gudmap.org. 2004;
2*J:33880 Hakem R, de la Pompa JL, Sirard C, Mo R, Woo M, Hakem A, Wakeham A, Potter J, Reitmair A, Billia F, Firpo E, Hui CC, Roberts J, Rossant J, Mak TW, The tumor suppressor gene Brca1 is required for embryonic cellular proliferation in the mouse. Cell. 1996 Jun 28;85(7):1009-23
2*J:201153 Hamard PJ, Barthelery N, Hogstad B, Mungamuri SK, Tonnessen CA, Carvajal LA, Senturk E, Gillespie V, Aaronson SA, Merad M, Manfredi JJ, The C terminus of p53 regulates gene expression by multiple mechanisms in a target- and tissue-specific manner in vivo. Genes Dev. 2013 Sep 1;27(17):1868-85
9*J:173795 Hilliard S, Aboudehen K, Yao X, El-Dahr SS, Tight regulation of p53 activity by Mdm2 is required for ureteric bud growth and branching. Dev Biol. 2011 May 15;353(2):354-66
1*J:207609 Hilliard SA, Yao X, El-Dahr SS, Mdm2 is required for maintenance of the nephrogenic niche. Dev Biol. 2014 Mar 1;387(1):1-14
2J:174359 Huang L, Yan Z, Liao X, Li Y, Yang J, Wang ZG, Zuo Y, Kawai H, Shadfan M, Ganapathy S, Yuan ZM, The p53 inhibitors MDM2/MDMX complex is required for control of p53 activity in vivo. Proc Natl Acad Sci U S A. 2011 Jul 19;108(29):12001-6
1*J:268858 Ishimura A, Terashima M, Tange S, Suzuki T, Jmjd5 functions as a regulator of p53 signaling during mouse embryogenesis. Cell Tissue Res. 2016 Mar;363(3):723-33
5*J:145784 Jin XL, Chandrakanthan V, Morgan HD, O'Neill C, Preimplantation embryo development in the mouse requires the latency of TRP53 expression, which is induced by a ligand-activated PI3 kinase/AKT/MDM2-mediated signaling pathway. Biol Reprod. 2009 Feb;80(2):286-94
4*J:29811 Jones SN, Roe AE, Donehower LA, Bradley A, Rescue of embryonic lethality in Mdm2-deficient mice by absence of p53. Nature. 1995 Nov 9;378(6553):206-8
1J:252381 Kokavec J, Zikmund T, Savvulidi F, Kulvait V, Edelmann W, Skoultchi AI, Stopka T, The ISWI ATPase Smarca5 (Snf2h) Is Required for Proliferation and Differentiation of Hematopoietic Stem and Progenitor Cells. Stem Cells. 2017 Jun;35(6):1614-1623
1J:303990 Kon N, Churchill M, Li H, Mukherjee S, Manfredi JJ, Gu W, Robust p53 Stabilization Is Dispensable for Its Activation and Tumor Suppressor Function. Cancer Res. 2021 Feb 15;81(4):935-944
1J:276962 Kon N, Wang D, Gu W, Loss of SET reveals both the p53-dependent and the p53-independent functions in vivo. Cell Death Dis. 2019 Mar 11;10(3):237
2J:203102 Kon N, Zhong J, Kobayashi Y, Li M, Szabolcs M, Ludwig T, Canoll PD, Gu W, Roles of HAUSP-mediated p53 regulation in central nervous system development. Cell Death Differ. 2011 Aug;18(8):1366-75
1J:184521 Koss M, Bolze A, Brendolan A, Saggese M, Capellini TD, Bojilova E, Boisson B, Prall OW, Elliott DA, Solloway M, Lenti E, Hidaka C, Chang CP, Mahlaoui N, Harvey RP, Casanova JL, Selleri L, Congenital Asplenia in Mice and Humans with Mutations in a Pbx/Nkx2-5/p15 Module. Dev Cell. 2012 May 15;22(5):913-26
1J:335074 Kuzelova A, Dupacova N, Antosova B, Sunny SS, Kozmik Z Jr, Paces J, Skoultchi AI, Stopka T, Kozmik Z, Chromatin Remodeling Enzyme Snf2h Is Essential for Retinal Cell Proliferation and Photoreceptor Maintenance. Cells. 2023 Mar 28;12(7)
9*J:49215 Leveillard T, Gorry P, Niederreither K, Wasylyk B, MDM2 expression during mouse embryogenesis and the requirement of p53. Mech Dev. 1998 Jun;74(1-2):189-93
3J:329967 Li H, Li C, Zhai W, Zhang X, Li L, Wu B, Yu B, Zhang P, Li J, Cui CP, Zhang L, Destabilization of TP53 by USP10 is essential for neonatal autophagy and survival. Cell Rep. 2022 Oct 4;41(1):111435
2J:284759 Li Q, Cui S, Ma Q, Liu Y, Yu H, Geng G, Agborbesong E, Ren C, Wei K, Zhang Y, Yang J, Bai X, Cai G, Xie Y, Li X, Chen X, Disruption of Robo2-Baiap2 integrated signaling drives cystic disease. JCI Insight. 2019 Sep 19;4(18)
1*J:180459 Lim ST, Chen XL, Lim Y, Hanson DA, Vo TT, Howerton K, Larocque N, Fisher SJ, Schlaepfer DD, Ilic D, Nuclear FAK promotes cell proliferation and survival through FERM-enhanced p53 degradation. Mol Cell. 2008 Jan 18;29(1):9-22
3J:250113 Maruyama EO, Lin H, Chiu SY, Yu HM, Porter GA, Hsu W, Extraembryonic but not embryonic SUMO-specific protease 2 is required for heart development. Sci Rep. 2016 Feb 17;6:20999
1J:263684 Nie X, Zheng J, Ricupero CL, He L, Jiao K, Mao JJ, mTOR acts as a pivotal signaling hub for neural crest cells during craniofacial development. PLoS Genet. 2018 Jul;14(7):e1007491
1J:146960 Nishiyama M, Oshikawa K, Tsukada Y, Nakagawa T, Iemura S, Natsume T, Fan Y, Kikuchi A, Skoultchi AI, Nakayama KI, CHD8 suppresses p53-mediated apoptosis through histone H1 recruitment during early embryogenesis. Nat Cell Biol. 2009 Feb;11(2):172-82
1J:90276 Ota MS, Loebel DA, O'Rourke MP, Wong N, Tsoi B, Tam PP, Twist is required for patterning the cranial nerves and maintaining the viability of mesodermal cells. Dev Dyn. 2004 Jun;230(2):216-28
1J:71532 Parant J, Chavez-Reyes A, Little NA, Yan W, Reinke V, Jochemsen AG, Lozano G, Rescue of embryonic lethality in Mdm4-null mice by loss of Trp53 suggests a nonoverlapping pathway with MDM2 to regulate p53. Nat Genet. 2001 Sep;29(1):92-5
1J:123174 Robert-Moreno A, Espinosa L, Sanchez MJ, de la Pompa JL, Bigas A, The notch pathway positively regulates programmed cell death during erythroid differentiation. Leukemia. 2007 Jul;21(7):1496-503
1J:67553 Ruland J, Sirard C, Elia A, MacPherson D, Wakeham A, Li L, de la Pompa JL, Cohen SN, Mak TW, p53 accumulation, defective cell proliferation, and early embryonic lethality in mice lacking tsg101. Proc Natl Acad Sci U S A. 2001 Feb 13;98(4):1859-64
2J:326958 Sapir T, Kshirsagar A, Gorelik A, Olender T, Porat Z, Scheffer IE, Goldstein DB, Devinsky O, Reiner O, Heterogeneous nuclear ribonucleoprotein U (HNRNPU) safeguards the developing mouse cortex. Nat Commun. 2022 Jul 21;13(1):4209
1J:347602 Shi Y, Huang D, Song C, Cao R, Wang Z, Wang D, Zhao L, Xu X, Lu C, Xiong F, Zhao H, Li S, Zhou Q, Luo S, Hu D, Zhang Y, Wang C, Shen Y, Su W, Wu Y, Schmitz K, Wei S, Song W, Diphthamide deficiency promotes association of eEF2 with p53 to induce p21 expression and neural crest defects. Nat Commun. 2024 Apr 26;15(1):3301
1*J:36053 Shvarts A, Steegenga WT, Riteco N, van Laar T, Dekker P, Bazuine M, van Ham RC, van der Houven van Oordt W, Hateboer G, van der Eb AJ, Jochemsen AG, MDMX: a novel p53-binding protein with some functional properties of MDM2. EMBO J. 1996 Oct 1;15(19):5349-57
3J:292836 Sui P, Li R, Zhang Y, Tan C, Garg A, Verheyden JM, Sun X, E3 ubiquitin ligase MDM2 acts through p53 to control respiratory progenitor cell number and lung size. Development. 2019 Dec 16;146(24):dev179820
1J:40595 Suzuki A, de la Pompa JL, Hakem R, Elia A, Yoshida R, Mo R, Nishina H, Chuang T, Wakeham A, Itie A, Koo W, Billia P, Ho A, Fukumoto M, Hui CC, Mak TW, Brca2 is required for embryonic cellular proliferation in the mouse. Genes Dev. 1997 May 15;11(10):1242-52
2J:160518 Swartling FJ, Grimmer MR, Hackett CS, Northcott PA, Fan QW, Goldenberg DD, Lau J, Masic S, Nguyen K, Yakovenko S, Zhe XN, Gilmer HC, Collins R, Nagaoka M, Phillips JJ, Jenkins RB, Tihan T, Vandenberg SR, James CD, Tanaka K, Taylor MD, Weiss WA, Chesler L, Pleiotropic role for MYCN in medulloblastoma. Genes Dev. 2010 May 15;24(10):1059-72
1J:123661 Terzian T, Wang Y, Van Pelt CS, Box NF, Travis EL, Lozano G, Haploinsufficiency of Mdm2 and Mdm4 in tumorigenesis and development. Mol Cell Biol. 2007 Aug;27(15):5479-85
1J:308686 Tiu GC, Kerr CH, Forester CM, Krishnarao PS, Rosenblatt HD, Raj N, Lantz TC, Zhulyn O, Bowen ME, Shokat L, Attardi LD, Ruggero D, Barna M, A p53-dependent translational program directs tissue-selective phenotypes in a model of ribosomopathies. Dev Cell. 2021 Jul 26;56(14):2089-2102.e11
7*J:213978 Vuong L, Brobst DE, Saadi A, Ivanovic I, Al-Ubaidi MR, Pattern of expression of p53, its family members, and regulators during early ocular development and in the post-mitotic retina. Invest Ophthalmol Vis Sci. 2012 Jul;53(8):4821-31
1*J:63869 Weiss RS, Enoch T, Leder P, Inactivation of mouse Hus1 results in genomic instability and impaired responses to genotoxic stress. Genes Dev. 2000 Aug 1;14(15):1886-98
1J:223276 Xiong X, Zhao Y, Tang F, Wei D, Thomas D, Wang X, Liu Y, Zheng P, Sun Y, Ribosomal protein S27-like is a physiological regulator of p53 that suppresses genomic instability and tumorigenesis. Elife. 2014;3:e02236
1J:241249 Xue Y, Raharja A, Sim W, Wong ES, Rahmat SA, Lane DP, The hot-spot p53R172H mutant promotes formation of giant spermatogonia triggered by DNA damage. Oncogene. 2017 Apr 06;36(14):2002-2013
1J:51726 Yamabhai M, Kay BK, Examining the specificity of Src homology 3 domain--ligand interactions with alkaline phosphatase fusion proteins. Anal Biochem. 1997 Apr 5;247(1):143-51
2J:339368 Yao F, Huang S, Liu J, Tan C, Xu M, Wang D, Huang M, Zhu Y, Huang X, He S, Deletion of ARGLU1 causes global defects in alternative splicing in vivo and mouse cortical malformations primarily via apoptosis. Cell Death Dis. 2023 Aug 23;14(8):543
2J:240406 Zhang Y, Zeng SX, Hao Q, Lu H, Monitoring p53 by MDM2 and MDMX is required for endocrine pancreas development and function in a spatio-temporal manner. Dev Biol. 2017 Mar 01;423(1):34-45
1*J:217191 Zhang Y, Zhang X, Lu H, Aberrant activation of p53 due to loss of MDM2 or MDMX causes early lens dysmorphogenesis. Dev Biol. 2014 Dec 1;396(1):19-30
1*J:336094 Zheng H, Zhang X, Fu J, Xue Y, Chen Z, Yang G, Chen Y, Chen D, Yuan G, CHIP inhibits odontoblast differentiation through promoting DLX3 polyubiquitylation and degradation. Development. 2023 May 15;150(10):dev200848

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last database update
11/12/2024
MGI 6.24
The Jackson Laboratory