ZFIN

ZFIN ID: ZDB-GENE-990415-153

ZFIN ID: ZDB-GENE-990415-153

CITATIONS (212 total)

Gene Name:	MDM2 proto-oncogene
Gene Symbol:	mdm2

Ajouaou, Y., Magnani, E., Madakashira, B., Jenkins, E., Sadler, K.C. (2023) atm Mutation and Oxidative Stress Enhance the Pre-Cancerous Effects of UHRF1 Overexpression in Zebrafish Livers. Cancers. 15(8):
Anderson, R.M., Bosch, J.A., Goll, M.G., Hesselson, D., Dong, P.D., Shin, D., Chi, N.C., Shin, C.H., Schlegel, A., Halpern, M., and Stainier, D.Y. (2009) Loss of Dnmt1 catalytic activity reveals multiple roles for DNA methylation during pancreas development and regeneration. Developmental Biology. 334(1):213-223
Angileri, K.M., Gross, J.M. (2020) dnmt1 function is required to maintain retinal stem cells within the ciliary marginal zone of the zebrafish eye. Scientific Reports. 10:11293
Babu, S., Takeuchi, Y., Masai, I. (2022) Banp regulates DNA damage response and chromosome segregation during the cell cycle in zebrafish retina. eLIFE. 11
Badrock, A.P., Uggenti, C., Wacheul, L., Crilly, S., Jenkinson, E.M., Rice, G.I., Kasher, P.R., Lafontaine, D.L.J., Crow, Y.J., O'Keefe, R.T. (2020) Analysis of U8 snoRNA Variants in Zebrafish Reveals How Bi-allelic Variants Cause Leukoencephalopathy with Calcifications and Cysts. American journal of human genetics. 106(5):694-706
Balow, S.A., Pierce, L.X., Zentner, G.E., Conrad, P.A., Davis, S., Sabaawy, H.E., McDermott, B.M., and Scacheri, P.C. (2013) Knockdown of fbxl10/kdm2bb rescues chd7 morphant phenotype in a zebrafish model of CHARGE syndrome. Developmental Biology. 382(1):57-69
Berghmans,, S., Murphey, R.D., Wienholds, E., Neuberg, D., Kutok, J.L., Fletcher, C.D., Morris, J.P., Liu, T.X., Schulte-Merker, S., Kanki, J.P., Plasterk, R., Zon, L.I., and Look, A.T. (2005) tp53 mutant zebrafish develop malignant peripheral nerve sheath tumors. Proceedings of the National Academy of Sciences of the United States of America. 102(2):407-412
Blackburn, J.S., Liu, S., Wilder, J.L., Dobrinski, K.P., Lobbardi, R., Moore, F.E., Martinez, S.A., Chen, E.Y., Lee, C., Langenau, D.M. (2014) Clonal evolution enhances leukemia-propagating cell frequency in T cell acute lymphoblastic leukemia through Akt/mTORC1 pathway activation. Cancer Cell. 25:366-78
Boglev, Y., Badrock, A.P., Trotter, A.J., Du, Q., Richardson, E.J., Parslow, A.C., Markmiller, S.J., Hall, N.E., de Jong-Curtain, T.A., Ng, A.Y., Verkade, H., Ober, E.A., Field, H.A., Shin, D., Shin, C.H., Hannan, K.M., Hannan, R.D., Pearson, R.B., Kim, S.H., Ess, K.C., Lieschke, G.J., Stainier, D.Y., and Heath, J.K. (2013) Autophagy induction is a tor- and tp53-independent cell survival response in a zebrafish model of disrupted ribosome biogenesis. PLoS Genetics. 9(2):e1002379
Boysen, G., Barbieri, C.E., Prandi, D., Blattner, M., Chae, S.S., Dahija, A., Nataraj, S., Huang, D., Marotz, C., Xu, L., Huang, J., Lecca, P., Chhangawala, S., Liu, D., Zhou, P., Sboner, A., de Bono, J.S., Demichelis, F., Houvras, Y., Rubin, M.A. (2015) SPOP mutation leads to genomic instability in prostate cancer. eLIFE. 4
Bretaud, S., Allen, C., Ingham, P.W., and Bandmann, O. (2007) p53-dependent neuronal cell death in a DJ-1-deficient zebrafish model of Parkinson's disease. Journal of neurochemistry. 100(6):1626-1635
Brun, N.R., Christen, V., Furrer, G., Fent, K. (2014) Indium and Indium Tin Oxide Induce Endoplasmic Reticulum Stress and Oxidative Stress in Zebrafish (Danio rerio). Environmental science & technology. 48(19):11679-87
Cai, P., Mao, X., Zhao, J., Luo, L. (2018) Ribosome biogenesis protein Urb2 regulates hematopoietic stem cells development via P53 pathway in zebrafish. Biochemical and Biophysical Research Communications. 497(2):776-782
Carril Pardo, C.A., Massoz, L., Dupont, M.A., Bergemann, D., Bourdouxhe, J., Lavergne, A., Tarifeño-Saldivia, E., Helker, C.S., Stainier, D.Y., Peers, B., Voz, M.M., Manfroid, I. (2022) A δ-cell subpopulation with pro-β cell identity contributes to efficient age-independent recovery in a zebrafish diabetes model. eLIFE. 11:
Chakraborty, A., Uechi, T., Higa, S., Torihara, H., and Kenmochi, N. (2009) Loss of ribosomal protein L11 affects zebrafish embryonic development through a p53-dependent apoptotic response. PLoS One. 4(1):e4152
Chen, C., Huang, H., Yan, R., Lin, S., Qin, W. (2019) Loss of rps9 in Zebrafish Leads to p53-Dependent Anemia. G3 (Bethesda). 9(12):4149-4157
Chen, C., Lu, M., Lin, S., Qin, W. (2020) The nuclear gene rpl18 regulates erythroid maturation via JAK2-STAT3 signaling in zebrafish model of Diamond-Blackfan anemia. Cell Death & Disease. 11:135
Chen, J., Ng, S.M., Chang, C., Zhang, Z., Bourdon, J.C., Lane, D.P., and Peng, J. (2009) p53 Isoform delta113p53 is a p53 target gene that antagonizes p53 apoptotic activity via BclxL activation in zebrafish. Genes & Development. 23(3):278-290
Chen, J., Ren, C., Yao, C., Baruscotti, M., Wang, Y., Zhao, L. (2023) Identification of the natural chalcone glycoside hydroxysafflor yellow A as a suppressor of P53 overactivation-associated hematopoietic defects. MedComm. 4:e352e352
Chen, J., Ruan, H., Ng, S.M., Gao, C., Soo, H.M., Wu, W., Zhang, Z., Wen, Z., Lane, D.P., and Peng, J. (2005) Loss of function of def selectively up-regulates {Delta}113p53 expression to arrest expansion growth of digestive organs in zebrafish. Genes & Development. 19(23):2900-2911
Chen, J.Y., Tan, X., Wang, Z.H., Liu, Y.Z., Zhou, J.F., Rong, X.Z., Lu, L., Li, Y. (2018) The Ribosome Biogenesis Protein Esf1 is Essential for Pharyngeal Cartilage Formation in zebrafish. The FEBS journal. 285(18):3464-3484
Chen, L.J., Hsu, C.C., Hong, J.R., Jou, L.K., Tseng, H.C., Wu, J.L., Liou, Y.C., and Her, G.M. (2008) Liver-specific expression of p53-negative regulator mdm2 leads to growth retardation and fragile liver in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 237(4):1070-1081
Chen, X., Huang, Y., Gao, P., Lv, Y., Jia, D., Sun, K., Han, Y., Hu, H., Tang, Z., Ren, X., Liu, M. (2021) Knockout of mafba Causes Inner-Ear Developmental Defects in Zebrafish via the Impairment of Proliferation and Differentiation of Ionocyte Progenitor Cells. Biomedicines. 9(11):
Chen, X., Zheng, J., Teng, M., Zhang, J., Qian, L., Duan, M., Zhao, F., Zhao, W., Wang, Z., Wang, C. (2021) Bioaccumulation, Metabolism and the Toxic Effects of Chlorfenapyr in Zebrafish (Danio rerio). Journal of Agricultural and Food Chemistry. 69(29):8110-8119
Chen, Y.H., Wen, C.C., Lin, C.Y., Chou, C.Y., Yang, Z.S., and Wang, Y.H. (2011) UV-induced fin damage in zebrafish as a system for evaluating the chemopreventive potential of broccoli and cauliflower extracts. Toxicology mechanisms and methods. 21(1):63-69
Cheng, C.C., Chou, C.Y., Chang, Y.C., Wang, H.W., Wen, C.C., Chen, Y.H. (2014) Protective Role of Comfrey Leave Extracts on UV-induced Zebrafish Fin Damage. Journal of Toxicologic Pathology. 27:115-21
Cheng, Y.C., Wu, T.S., Huang, Y.T., Chang, Y., Yang, J.J., Yu, F.Y., Liu, B.H. (2021) Aflatoxin B1 interferes with embryonic liver development: involvement of p53 signaling and apoptosis in zebrafish. Toxicology. 458:152844
Choe, H., Kim, M.J., Jeon, H.J., Kim, K., Kim, C., Park, J., Shin, J., Lee, S.R., Lee, S.E. (2021) Acute toxicity of the insecticide EPN upon zebrafish (Danio rerio) embryos and its related adverse effects: Verification of abnormal cardiac development and seizure-like events. Ecotoxicology and environmental safety. 222:112544
Choi, T.Y., Khaliq, M., Tsurusaki, S., Ninov, N., Stainier, D.Y.R., Tanaka, M., Shin, D. (2017) Bmp Signaling Governs Biliary-Driven Liver Regeneration in Zebrafish via Tbx2b and Id2a. Hepatology (Baltimore, Md.). 66(5):1616-1630
Chua, J.S., Liew, H.P., Guo, L., Lane, D.P. (2015) Tumor-specific signaling to p53 is mimicked by Mdm2 inactivation in zebrafish: insights from mdm2 and mdm4 mutant zebrafish. Oncogene. 34(48):5933-41
Cox, A.G., Tsomides, A., Kim, A.J., Saunders, D., Hwang, K.L., Evason, K.J., Heidel, J., Brown, K.K., Yuan, M., Lien, E.C., Lee, B.C., Nissim, S., Dickinson, B., Chhangawala, S., Chang, C.J., Asara, J.M., Houvras, Y., Gladyshev, V.N., Goessling, W. (2016) Selenoprotein H is an essential regulator of redox homeostasis that cooperates with p53 in development and tumorigenesis. Proceedings of the National Academy of Sciences of the United States of America. 113(38):E5562-71
Daroczi, B., Kari, G., Ren, Q., Dicker, A.P., and Rodeck, U. (2009) Nuclear factor {kappa}B inhibitors alleviate and the proteasome inhibitor PS-341 exacerbates radiation toxicity in zebrafish embryos. Molecular cancer therapeutics. 8(9):2625-2634
Davuluri, G., Gong, W., Yusuff, S., Lorent, K., Muthumani, M., Dolan, A.C., and Pack, M. (2008) Mutation of the zebrafish nucleoporin elys sensitizes tissue progenitors to replication stress. PLoS Genetics. 4(10):e1000240
Day, K.R., and Jagadeeswaran, P. (2009) Microarray analysis of prothrombin knockdown in zebrafish. Blood cells, molecules & diseases. 43(2):202-210
Deng, J., Yu, L., Liu, C., Yu, K., Shi, X., Yeung, L.W., Lam, P.K., Wu, R.S., and Zhou, B. (2009) Hexabromocyclododecane-induced developmental toxicity and apoptosis in zebrafish embryos. Aquatic toxicology (Amsterdam, Netherlands). 93(1):29-36
Ding, C., Du, M., Xiong, Z., Wang, X., Li, H., He, E., Li, H., Dang, Y., Lu, Q., Li, S., Xiao, R., Xu, Z., Jing, L., Deng, L., Wang, X., Geng, M., Xie, Z., Zhang, A. (2023) Photochemically controlled activation of STING by CAIX-targeting photocaged agonists to suppress tumor cell growth. Chemical science. 14:595659645956-5964
Duan, J., Ba, Q., Wang, Z., Hao, M., Li, X., Hu, P., Zhang, D., Zhang, R., and Wang, H. (2011) Knockdown of ribosomal protein S7 causes developmental abnormalities via p53 dependent and independent pathways in zebrafish. The international journal of biochemistry & cell biology. 43(8):1218-27
Duan, Z., Xing, Y., Feng, Z., Zhang, H., Li, C., Gong, Z., Wang, L., Sun, H. (2017) Hepatotoxicity of benzotriazole and its effect on the cadmium induced toxicity in zebrafish Danio rerio. Environmental pollution (Barking, Essex : 1987). 224:706-713
Ear, J., Hsueh, J., Nguyen, M., Zhang, Q., Sung, V., Chopra, R., Sakamoto, K.M., Lin, S. (2016) A Zebrafish Model of 5q-Syndrome Using CRISPR/Cas9 Targeting RPS14 Reveals a p53-Independent and p53-Dependent Mechanism of Erythroid Failure. Journal of genetics and genomics = Yi chuan xue bao. 43(5):307-18
Ear, J., Huang, H., Wilson, T., Tehrani, Z., Lindgren, A., Sung, V., Laadem, A., Daniel, T.O., Chopra, R., Lin, S. (2015) RAP-011 improves erythropoiesis in zebrafish model of Diamond-Blackfan anemia through antagonizing lefty1. Blood. 126(7):880-90
Elabd, S., Jabeen, N.A., Gerber, V., Peravali, R., Bourdon, J.C., Kancherla, S., Vallone, D., Blattner, C. (2019) Delay in development and behavioural abnormalities in the absence of p53 in zebrafish. PLoS One. 14:e0220069
Emerson, S.E., St Clair, R.M., Waldron, A.L., Bruno, S.R., Duong, A., Driscoll, H.E., Ballif, B.A., McFarlane, S., Ebert, A.M. (2017) Identification of target genes downstream of Semaphorin6A/PlexinA2 signaling in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 246(7):539-549
Espín, R., Roca, F.J., Candel, S., Sepulcre, M.P., González-Rosa, J.M., Alcaraz-Pérez, F., Meseguer, J., Cayuela, M.L., Mercader, N., and Mulero, V. (2013) TNF receptors regulate vascular homeostasis through a caspase-8, caspase-2 and P53 apoptotic program that bypasses caspase-3. Disease models & mechanisms. 6(2):383-396
Fei, F., Sun, S.Y., Yao, Y.X., Wang, X. (2017) [Generation and phenotype analysis of zebrafish mutations of obesity-related genes lepr and mc4r]. Sheng li xue bao : [Acta physiologica Sinica]. 69:61-69
Fischer, S., Prykhozhij, S., Rau, M.J., and Neumann, C.J. (2007) Mutation of Zebrafish caf-1b Results in S Phase Arrest, Defective Differentiation, and p53-Mediated Apoptosis During Organogenesis. Cell cycle (Georgetown, Tex.). 6(23):2962-2969
Flentke, G.R., Wilkie, T.E., Baulch, J., Huang, Y., Smith, S.M. (2024) Alcohol exposure suppresses ribosome biogenesis and causes nucleolar stress in cranial neural crest cells. PLoS One. 19:e0304557e0304557
Franke, M., De la Calle-Mustienes, E., Neto, A., Almuedo-Castillo, M., Irastorza-Azcarate, I., Acemel, R.D., Tena, J.J., Santos-Pereira, J.M., Gómez-Skarmeta, J.L. (2021) CTCF knockout in zebrafish induces alterations in regulatory landscapes and developmental gene expression. Nature communications. 12:5415
Gao, L., Li, D., Ma, K., Zhang, W., Xu, T., Fu, C., Jing, C., Jia, X., Wu, S., Sun, X., Dong, M., Deng, M., Chen, Y., Zhu, W., Peng, J., Wan, F., Zhou, Y., Zon, L.I., Pan, W. (2015) TopBP1 Governs Hematopoietic Stem/Progenitor Cells Survival in Zebrafish Definitive Hematopoiesis. PLoS Genetics. 11:e1005346
Gerety, S.S., and Wilkinson, D.G. (2011) Morpholino artifacts provide pitfalls and reveal a novel role for pro-apoptotic genes in hindbrain boundary development. Developmental Biology. 350(2):279-289
Ghiselli, G. (2006) SMC3 knockdown triggers genomic instability and p53-dependent apoptosis in human and zebrafish cells. Molecular Cancer. 5(1):52-64
Goh, W.L., Lee, M.Y., Lim, T.X., Chua, J.S., Brenner, S., Ghadessy, F.J., Teo, Y.N. (2018) A novel molecular rotor facilitates detection of p53-DNA interactions using the Fluorescent Intercalator Displacement Assay. Scientific Reports. 8:12946
Guo, L., Chua, J., Vijayakumar, D., Lee, K.C., Lim, K., Eng, H., Ghadessy, F., Coomber, D., and Lane, D.P. (2010) Detection of the 113p53 protein isoform: A p53-induced protein that feeds back on the p53 pathway to modulate the p53 response in zebrafish. Cell cycle (Georgetown, Tex.). 9(10):1998-2007
Han, R., Zhao, Q., Zong, S., Miao, S., Song, W., Wang, L. (2016) A novel TRIM family member, trim69, regulates zebrafish development through p53-mediated apoptosis. Molecular reproduction and development. 83(5):442-54
Hensley, M.R., Chua, R.F., Leung, Y.F., Yang, J.Y., Zhang, G. (2016) Molecular Evolution of MDM1, a "Duplication-Resistant" Gene in Vertebrates. PLoS One. 11:e0163229
Henson, H.E., Taylor, M.R. (2020) A sart1 Zebrafish Mutant Results in Developmental Defects in the Central Nervous System. Cells. 9(11):
Hochgreb-Hägele, T., Koo, D.E., Bronner, M.E. (2015) Znf385C mediates a novel p53-dependent transcriptional switch to control timing of facial bone formation. Developmental Biology. 400(1):23-32
Hrubik, J., Glisic, B., Samardzija, D., Stanic, B., Pogrmic-Majkic, K., Fa, S., Andric, N. (2016) Effect of PMA-induced protein kinase C activation on development and apoptosis in early zebrafish embryos. Comparative biochemistry and physiology. Toxicology & pharmacology : CBP. 190:24-31
Huang, C., Gu, S., Yu, P., Yu, F., Feng, C., Gao, N., and Du, J. (2010) Deficiency of smarcal1 causes cell cycle arrest and developmental abnormalities in zebrafish. Developmental Biology. 339(1):89-100
Huang, C.X., Huang, Y., Duan, X.K., Zhang, M., Tu, J.P., Liu, J.X., Liu, H., Chen, T.S., Wang, W.M., Wang, H.L. (2018) Zebrafish miR-462-731 regulates hematopoietic specification and pu.1-dependent primitive myelopoiesis. Cell death and differentiation. 26(8):1531-1544
Huang, H.T., Kathrein, K.L., Barton, A., Gitlin, Z., Huang, Y.H., Ward, T.P., Hofmann, O., Dibiase, A., Song, A., Tyekucheva, S., Hide, W., Zhou, Y., and Zon, L.I. (2013) A network of epigenetic regulators guides developmental haematopoiesis in vivo. Nature cell biology. 15(12):1516-1525
Imamura, S., Uchiyama, J., Koshimizu, E., Hanai, J., Raftopoulou, C., Murphey, R.D., Bayliss, P.E., Imai, Y., Burns, C.E., Masutomi, K., Gagos, S., Zon, L.I., Roberts, T.M., and Kishi, S. (2008) A non-canonical function of zebrafish telomerase reverse transcriptase is required for developmental hematopoiesis. PLoS One. 3(10):e3364
Jagtap, U., Sivadas, A., Basu, S., Verma, A., Sivasubbu, S., Scaria, V., Sachidanandan, C. (2019) A Temporal Map of Gene Expression Pattern During Zebrafish Liver Regeneration. Zebrafish. 17(1):1-10
Jiang, J., Chen, Y., Yu, R., Zhao, X., Wang, Q., Cai, L. (2016) Pretilachlor has the potential to induce endocrine disruption, oxidative stress, apoptosis and immunotoxicity during zebrafish embryo development. Environmental Toxicology and Pharmacology. 42:125-134
Jiang, J., Lv, L., Wu, S., An, X., Wang, F., Liu, X., Zhao, X. (2018) Developmental toxicity of kresoxim-methyl during zebrafish (Danio rerio) larval development. Chemosphere. 219:517-525
Jiang, J., Shi, Y., Yu, R., Chen, L., Zhao, X. (2018) Biological response of zebrafish after short-term exposure to azoxystrobin. Chemosphere. 202:56-64
Jiang, J., Wu, S., Liu, X., Wang, Y., An, X., Cai, L., Zhao, X. (2015) Effect of acetochlor on transcription of genes associated with oxidative stress, apoptosis, immunotoxicity and endocrine disruption in the early life stage of zebrafish. Environmental Toxicology and Pharmacology. 40:516-523
Jiang, J., Wu, S., Wang, Y., An, X., Cai, L., Zhao, X., Wu, C. (2015) Carbendazim has the potential to induce oxidative stress, apoptosis, immunotoxicity and endocrine disruption during zebrafish larvae development. Toxicology in vitro : an international journal published in association with BIBRA. 29(7):1473-81
Jiang, J., Wu, S., Wu, C., An, X., Cai, L., Zhao, X. (2014) Embryonic exposure to carbendazim induces the transcription of genes related to apoptosis, immunotoxicity and endocrine disruption in zebrafish (Danio rerio). Fish & shellfish immunology. 41(2):493-500
Jin, Y., Pan, X., Limin, C., Ma, B., and Fu, Z. (2013) Embryonic exposure to cis-bifenthrin enantioselectively induces the transcription of genes related to oxidative stress, apoptosis and immunotoxicity in zebrafish (Danio rerio). Fish & shellfish immunology. 34(2):717-723
Jin, Y., Zheng, S., and Fu, Z. (2011) Embryonic exposure to cypermethrin induces apoptosis and immunotoxicity in zebrafish (Danio rerio). Fish & shellfish immunology. 30(4-5):1049-54
Jung, I.H., Jung, D.E., Chung, Y.Y., Kim, K.S., Park, S.W. (2019) Iroquois Homeobox 1 Acts as a True Tumor Suppressor in Multiple Organs by Regulating Cell Cycle Progression. Neoplasia (New York, N.Y.). 21:1003-1014
Jung, I.H., Leem, G.L., Jung, D.E., Kim, M.H., Kim, E.Y., Kim, S.H., Park, H.C., and Park, S.W. (2013) Glioma is formed by active Akt1 alone and promoted by active Rac1 in transgenic zebrafish. Neuro-Oncology. 15(3):290-304
Kim, S.Y., Hur, W., Choi, J.E., Kim, D., Wang, J.S., Yoon, H.Y., Piao, L.S., and Yoon, S.K. (2009) Functional characterization of human oncoprotein gankyrin in Zebrafish. Experimental & molecular medicine. 41(1):8-16
Koltowska, K., Apitz, H., Stamataki, D., Hirst, E.M., Verkade, H., Salecker, I., and Ober, E.A. (2013) Ssrp1a controls organogenesis by promoting cell cycle progression and RNA synthesis. Development (Cambridge, England). 140(9):1912-8
Kuo, Z.Y., Chuang, Y.J., Chao, C.C., Liu, F.C., Lan, C.Y., and Chen, B.S. (2013) Identification of Infection- and Defense-Related Genes via a Dynamic Host-Pathogen Interaction Network Using a Candida Albicans-Zebrafish Infection Model. Journal of Innate Immunity. 5(2):137-52
Lam, S.H., Ung, C.Y., Hlaing, M.M., Hu, J., Li, Z.H., Mathavan, S., and Gong, Z. (2013) Molecular insights into 4-nitrophenol-induced hepatotoxicity in zebrafish: Transcriptomic, histological and targeted gene expression analyses. Biochimica et biophysica acta. General subjects. 1830(10):4778-4789
Lane, D.P., Cheok, C.F., Brown, C., Madhumalar, A., Ghadessy, F.J., and Verma, C. (2010) Mdm2 and p53 are highly conserved from placozoans to man. Cell cycle (Georgetown, Tex.). 9(3):540-547
Lane, D.P., Cheok, C.F., Brown, C.J., Madhumalar, A., Ghadessy, F.J., and Verma, C. (2010) The Mdm2 and p53 genes are conserved in the Arachnids. Cell cycle (Georgetown, Tex.). 9(4):748-754
Langenau, D.M., Feng, H., Berghmans, S., Kanki, J.P., Kutok, J.L., and Look, A.T. (2005) Cre/lox-regulated transgenic zebrafish model with conditional myc-induced T cell acute lymphoblastic leukemia. Proceedings of the National Academy of Sciences of the United States of America. 102(17):6068-6073
Langenau, D.M., Keefe, M.D., Storer, N.Y., Guyon, J.R., Kutok, J.L., Le, X., Goessling, W., Neuberg, D.S., Kunkel, L.M., and Zon, L.I. (2007) Effects of RAS on the genesis of embryonal rhabdomyosarcoma. Genes & Development. 21(11):1382-1395
Langheinrich, U., Hennen, E., Stott, G., and Vacun, G. (2002) Zebrafish as a model organism for the identification and characterization of drugs and genes affecting p53 signaling. Current biology : CB. 12(23):2023-2028
Lee, K.C., Goh, W.L., Xu, M., Kua, N., Lunny, D., Wong, J.S., Coomber, D., Vojtesek, B., Lane, E.B., and Lane, D.P. (2008) Detection of the p53 response in zebrafish embryos using new monoclonal antibodies. Oncogene. 27(5):629-640
Lee, Y.R., Khan, K., Armfield-Uhas, K., Srikanth, S., Thompson, N.A., Pardo, M., Yu, L., Norris, J.W., Peng, Y., Gripp, K.W., Aleck, K.A., Li, C., Spence, E., Choi, T.I., Kwon, S.J., Park, H.M., Yu, D., Do Heo, W., Mooney, M.R., Baig, S.M., Wentzensen, I.M., Telegrafi, A., McWalter, K., Moreland, T., Roadhouse, C., Ramsey, K., Lyons, M.J., Skinner, C., Alexov, E., Katsanis, N., Stevenson, R.E., Choudhary, J.S., Adams, D.J., Kim, C.H., Davis, E.E., Schwartz, C.E. (2020) Mutations in FAM50A suggest that Armfield XLID syndrome is a spliceosomopathy. Nature communications. 11:3698
Lei, L., Yan, S.Y., Yang, R., Chen, J.Y., Li, Y., Bu, Y., Chang, N., Zhou, Q., Zhu, X., Li, C.Y., Xiong, J.W. (2017) Spliceosomal protein eftud2 mutation leads to p53-dependent apoptosis in zebrafish neural progenitors. Nucleic acids research. 45(6):3422-3436
Lessel, D., Wu, D., Trujillo, C., Ramezani, T., Lessel, I., Alwasiyah, M.K., Saha, B., Hisama, F.M., Rading, K., Goebel, I., Schütz, P., Speit, G., Högel, J., Thiele, H., Nürnberg, G., Nürnberg, P., Hammerschmidt, M., Zhu, Y., Tong, D.R., Katz, C., Martin, G.M., Oshima, J., Prives, C., Kubisch, C. (2017) Dysfunction of the MDM2/p53 axis is linked to premature aging. The Journal of Clinical Investigation. 127(10):3598-3608
Li, I.C., Chen, Y.C., Wang, Y.Y., Tzeng, B.W., Ou, C.W., Lau, Y.Y., Wu, K.M., Chan, T.M., Lin, W.H., Hwang, S.P., Chow, W.Y. (2014) Zebrafish Adar2 Edits the Q/R Site of AMPA Receptor Subunit gria2alpha Transcript to Ensure Normal Development of Nervous System and Cranial Neural Crest Cells. PLoS One. 9:e97133
Li, J., Liu, F., Lv, Y., Sun, K., Zhao, Y., Reilly, J., Zhang, Y., Tu, J., Yu, S., Liu, X., Qin, Y., Huang, Y., Gao, P., Jia, D., Chen, X., Han, Y., Shu, X., Luo, D., Tang, Z., Liu, M. (2021) Prpf31 is essential for the survival and differentiation of retinal progenitor cells by modulating alternative splicing. Nucleic acids research. 49(4):2027-2043
Li, X., Song, G., Zhao, Y., Ren, J., Li, Q., Cui, Z. (2021) Functions of SMC2 in the Development of Zebrafish Liver. Biomedicines. 9(9):
Li, X., Zha, X., Wang, Y., Jia, R., Hu, B., Zhao, B. (2018) Toxic effects and foundation of proton radiation on the early-life stage of zebrafish development. Chemosphere. 200:302-312
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Additional Citations (29):

ZFIN Staff (2024) Association of Ensembl transcripts with ZFIN genes. Semi-automated Curation.

ZFIN Staff (2023) Automated Curation of UniProt Database Links. Automated Data Submission.

ZFIN Staff (2022) Electronic Gene Ontology annotations created by ARBA machine learning models. Automated Data Submission.

ZFIN Staff (2020) Addition of links from ZFIN to Expression Atlas. Semi-automated Curation.

ZFIN Staff (2019) Analysis of data directly submitted to the Zebrafish International Resource Center (ZIRC). ZFIN Direct Data Submission.

Zebrafish Nomenclature Committee (2018) Nomenclature Data Curation (2018). Nomenclature Committee Submission.

ZFIN Staff (2017) Curation of PANTHER Gene IDs. Automated Data Submission.

ZFIN Staff (2017) Curation of Alliance of Genome Resources Database Links. Automated Data Submission.

UniProt curators (2015) Electronic Gene Ontology annotations created by transferring manual GO annotations between related proteins based on shared sequence features.. Automated Data Submission.

Busch-Nentwich, E., Kettleborough, R., Dooley, C. M., Scahill, C., Sealy, I., White, R., Herd, C., Mehroke, S., Wali, N., Carruthers, S., Hall, A., Collins, J., Gibbons, R., Pusztai, Z., Clark, R., and Stemple, D.L. (2013) Sanger Institute Zebrafish Mutation Project mutant data submission. ZFIN Direct Data Submission.

ZFIN Staff (2013) Semi-automated association of ENSDARG identifiers with ZFIN genes for the ZMP project. Semi-automated Curation.

UniProt-GOA (2011) Gene Ontology annotation based on the manual assignment of UniProtKB Subcellular Location terms in UniProtKB/Swiss-Prot entries. Manually curated data.

UniProt-GOA (2011) Gene Ontology annotation based on the automatic assignment of UniProtKB Subcellular Location terms in UniProtKB/TrEMBL entries. Manually curated data.

Gaudet, P., Livstone, M., Thomas, P., The Reference Genome Project (2010) Annotation inferences using phylogenetic trees. Automated Data Submission.

GOA curators, UniProt curators (2007) Gene Ontology annotation based on Swiss-Prot Subcellular Location vocabulary mapping. Manually curated data.

GOA, HGNC, AgBase and UniProtKB curators (2007) Manual transfer of experimentally-verified manual GO annotation data to orthologs by curator judgment of sequence similarity. ZFIN Direct Data Submission.

ZFIN Staff (2007) Microarray Expression to Gene Association in ZFIN. Semi-automated Curation.

Ensembl curators, GOA curators (2006) Automatic transfer of experimentally verified manual GO annotation data to orthologs using Ensembl Compara. Manually curated data.

ZFIN Staff (2006) Curation of Ensembl Database Links. Automated Data Submission.

Thisse, C., and Thisse, B. (2005) High Throughput Expression Analysis of ZF-Models Consortium Clones. ZFIN Direct Data Submission.

Thisse, B., Thisse, C. (2004) Fast Release Clones: A High Throughput Expression Analysis. ZFIN Direct Data Submission.

ZFIN Staff (2004) ZGC Data Curation and Association in ZFIN by ZFIN Staff. Semi-automated Curation.

ZFIN Staff (2003) Curation of VEGA Database Links. Automated Data Submission.

ZFIN Staff (2003) Curation of FPC Database Links. Automated Data Submission.

ZFIN Staff (2003) Curation of orthology data. Manually curated data.

ZFIN Staff (2002) Gene Ontology Annotation Through Association of UniProt Keywords with GO Terms. Automated Data Submission.

ZFIN Staff (2002) Curation of NCBI Gene Data Via Shared RNA Sequence IDs. Automated Data Submission.

ZFIN Staff (2002) Scientific Curation. Manually curated data.

ZFIN Staff (2002) Gene Ontology Annotation Through Association of InterPro Records with GO Terms. Automated Data Submission.