|
|
|
|
Alghisi, E., Distel, M., Malagola, M., Anelli, V., Santoriello, C., Herwig, L., Krudewig, A., Henkel, C.V., Russo, D., and Mione, M.C. (2013) Targeting oncogene expression to endothelial cells induces proliferation of the myelo-erythroid lineage by repressing the notch pathway. Leukemia. 24(6):943-53
|
Alhashem, Z., Feldner-Busztin, D., Revell, C., Alvarez-Garcillan Portillo, M., Camargo-Sosa, K., Richardson, J., Rocha, M., Gauert, A., Corbeaux, T., Milanetto, M., Argenton, F., Tiso, N., Kelsh, R., Prince, V.E., Bentley, K., Linker, C. (2022) Notch controls the cell cycle to define leader versus follower identities during collective cell migration. eLIFE. 11:
|
Andrés-Delgado, L., Galardi-Castilla, M., Münch, J., Peralta, M., Ernst, A., González-Rosa, J.M., Tessadori, F., Santamaría, L., Bakkers, J., Vermot, J., de la Pompa, J.L., Mercader, N. (2020) Notch and Bmp signaling pathways act coordinately during the formation of the proepicardium. Developmental Dynamics : an official publication of the American Association of Anatomists. 249(12):1455-1469
|
Barske, L., Askary, A., Zuniga, E., Balczerski, B., Bump, P., Nichols, J.T., Crump, J.G. (2016) Competition between Jagged-Notch and Endothelin1 Signaling Selectively Restricts Cartilage Formation in the Zebrafish Upper Face. PLoS Genetics. 12:e1005967
|
Beis, D., Bartman, T., Jin, S.W., Scott, I.C., D'Amico, L.A., Ober, E.A., Verkade, H., Frantsve, J., Field, H.A., Wehman, A., Baier, H., Tallafuss, A., Bally-Cuif, L., Chen, J.N., Stainier, D.Y., and Jungblut, B. (2005) Genetic and cellular analyses of zebrafish atrioventricular cushion and valve development. Development (Cambridge, England). 132(18):4193-4204
|
|
|
|
|
Bresciani, E., Carrington, B., Wincovitch, S., Jones, M., Gore, A.V., Weinstein, B.M., Sood, R., Liu, P.P. (2014) CBFβ and RUNX1 are required at 2 different steps during the development of hematopoietic stem cells in zebrafish. Blood. 124(1):70-8
|
Burns, C.E., Galloway, J.L., Smith, A.C., Keefe, M.D., Cashman, T.J., Paik, E.J., Mayhall, E.A., Amsterdam, A.H., and Zon, L.I. (2009) A genetic screen in zebrafish defines a hierarchical network of pathways required for hematopoietic stem cell emergence. Blood. 113(23):5776-5782
|
|
|
|
|
Carroll, K.J., Esain, V., Garnaas, M.K., Cortes, M., Dovey, M.C., Nissim, S., Frechette, G.M., Liu, S.Y., Kwan, W., Cutting, C.C., Harris, J.M., Gorelick, D.A., Halpern, M.E., Lawson, N.D., Goessling, W., North, T.E. (2014) Estrogen defines the dorsal-ventral limit of VEGF regulation to specify the location of the hemogenic endothelial niche. Developmental Cell. 29:437-53
|
|
|
Chapouton, P., Skupien, P., Hesl, B., Coolen, M., Moore, J.C., Madelaine, R., Kremmer, E., Faus-Kessler, T., Blader, P., Lawson, N.D., and Bally-Cuif, L. (2010) Notch activity levels control the balance between quiescence and recruitment of adult neural stem cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 30(23):7961-7974
|
|
|
|
|
Chun, C.Z., Remadevi, I., Schupp, M.O., Samant, G.V., Pramanik, K., Wilkinson, G.A., and Ramchandran, R. (2011) Fli+ etsrp+ Hemato-Vascular Progenitor Cells Proliferate at the Lateral Plate Mesoderm during Vasculogenesis in Zebrafish. PLoS One. 6(2):e14732
|
Chung, A.Y., Kim, M.J., Kim, D., Bang, S., Hwang, S.W., Lim, C.S., Lee, S., Park, H.C., and Huh, T.L. (2010) Neuron-specific expression of atp6v0c2 in zebrafish CNS. Developmental Dynamics : an official publication of the American Association of Anatomists. 239(9):2501-2508
|
|
|
Clements, W.K., Kim, A.D., Ong, K.G., Moore, J.C., Lawson, N.D., and Traver, D. (2011) A somitic Wnt16/Notch pathway specifies haematopoietic stem cells. Nature. 474(7350):220-224
|
|
|
|
|
|
|
Covassin, L., Amigo, J.D., Suzuki, K., Teplyuk, V., Straubhaar, J., and Lawson, N.D. (2006) Global analysis of hematopoietic and vascular endothelial gene expression by tissue specific microarray profiling in zebrafish. Developmental Biology. 299(2):551-562
|
Da'as, S.I., Coombs, A.J., Balci, T.B., Grondin, C.A., Ferrando, A.A., and Berman, J.N. (2012) The zebrafish reveals dependence of the mast cell lineage on Notch signaling in vivo. Blood. 119(15):3585-3594
|
|
|
Delous, M., Yin, C., Shin, D., Ninov, N., Debrito Carten, J., Pan, L., Ma, T.P., Farber, S.A., Moens, C.B., and Stainier, D.Y. (2012) sox9b Is a Key Regulator of Pancreaticobiliary Ductal System Development. PLoS Genetics. 8(6):e1002754
|
|
|
|
|
|
|
|
|
|
|
Engerer, P., Petridou, E., Williams, P.R., Suzuki, S.C., Yoshimatsu, T., Portugues, R., Misgeld, T., Godinho, L. (2021) Notch-mediated re-specification of neuronal identity during central nervous system development. Current biology : CB. 31(21):4870-4878.e5
|
Espanola, S.G., Song, H., Ryu, E., Saxena, A., Kim, E.S., Manegold, J.E., Nasamran, C.A., Sahoo, D., Oh, C.K., Bickers, C., Shin, U., Grainger, S., Park, Y.H., Pandolfo, L., Kang, M.S., Kang, S., Myung, K., Cooper, K.L., Yelon, D., Traver, D., Lee, Y. (2020) Haematopoietic stem cell-dependent Notch transcription is mediated by p53 through the Histone chaperone Supt16h. Nature cell biology. 22(12):1411-1422
|
Espín-Palazón, R., Stachura, D.L., Campbell, C.A., García-Moreno, D., Del Cid, N., Kim, A.D., Candel, S., Meseguer, J., Mulero, V., Traver, D. (2014) Proinflammatory signaling regulates hematopoietic stem cell emergence. Cell. 159:1070-85
|
|
|
Fischer, B., Metzger, M., Richardson, R., Knyphausen, P., Ramezani, T., Franzen, R., Schmelzer, E., Bloch, W., Carney, T.J., and Hammerschmidt, M. (2014) p53 and TAp63 promote keratinocyte proliferation and differentiation in breeding tubercles of the zebrafish. PLoS Genetics. 10(1):e1004048
|
Fontana, F., Haack, T., Reichenbach, M., Knaus, P., Puceat, M., Abdelilah-Seyfried, S. (2020) Antagonistic Activities of Vegfr3/Flt4 and Notch1b Fine-tune Mechanosensitive Signaling during Zebrafish Cardiac Valvulogenesis. Cell Reports. 32:107883
|
|
|
Ghaye, A.P., Bergemann, D., Tarifeño-Saldivia, E., Flasse, L.C., Von Berg, V., Peers, B., Voz, M.L., Manfroid, I. (2015) Progenitor potential of nkx6.1-expressing cells throughout zebrafish life and during beta cell regeneration. BMC Biology. 13:70
|
Gray, C., Bratt, D., Lees, J., Dacosta, M., Plant, K., Solaymani-Kohal, S., Tazzyman, S., Serbanovic-Canic, J., Crossman, D.C., Keavney, B.D., Haase, A., McMahon, K., Gering, M., Roehl, H., Evans, P.C., and Chico, T.J. (2013) Loss of Function of Parathyroid Hormone Receptor 1 Induces Notch-Dependent Aortic Defects During Zebrafish Vascular Development. Arterioscler. Thromb. Vasc. Biol.. 33(6):1257-63
|
|
|
Guo, Y., Cheng, B.Y.L., Wang, D., Ma, A.C.H., He, B.L., Man, T.K., Cheung, M.P.L., Shi, X., Ng, N.K.L., Leung, A.Y.H. (2020) Function of Arl4aa in the Initiation of Hematopoiesis in Zebrafish by Maintaining Golgi Complex Integrity in Hemogenic Endothelium. Stem Cell Reports. 14(4):575-589
|
Hasan, S.S., Tsaryk, R., Lange, M., Wisniewski, L., Moore, J.C., Lawson, N.D., Wojciechowska, K., Schnittler, H., Siekmann, A.F. (2017) Endothelial Notch signalling limits angiogenesis via control of artery formation. Nature cell biology. 19(8):928-940
|
Hermkens, D.M., van Impel, A., Urasaki, A., Bussmann, J., Duckers, H.J., Schulte-Merker, S. (2015) Sox7 controls arterial specification in conjunction with hey2 and efnb2 function. Development (Cambridge, England). 142(9):1695-704
|
Huang, M., Chang, A., Choi, M., Zhou, D., Anania, F.A., Shin, C.H. (2014) Antagonistic interaction between Wnt and Notch activity modulates the regenerative capacity of a zebrafish fibrotic liver model. Hepatology (Baltimore, Md.). 60(5):1753-66
|
|
|
|
|
|
|
|
|
Jang, I.H., Lu, Y.F., Zhao, L., Wenzel, P.L., Kume, T., Datta, S.M., Arora, N., Guiu, J., Lagha, M., Kim, P.G., Do, E.K., Kim, J.H., Schlaeger, T.M., Zon, L.I., Bigas, A., Burns, C.E., Daley, G.Q. (2015) Notch1 acts via Foxc2 to promote definitive hematopoiesis via effects on hemogenic endothelium. Blood. 125(9):1418-26
|
Jiang, Q., Lagos-Quintana, M., Liu, D., Shi, Y., Helker, C., Herzog, W., and le Noble, F. (2013) miR-30a Regulates Endothelial Tip Cell Formation and Arteriolar Branching. Hypertension (Dallas, Tex. : 1979). 62(3):592-8
|
|
|
|
|
Kapsimali, M., Kaushik, A.L., Gibon, G., Dirian, L., Ernest, S., and Rosa, F.M. (2011) Fgf signaling controls pharyngeal taste bud formation through miR-200 and Delta-Notch activity. Development (Cambridge, England). 138(16):3473-3484
|
Kim, A.D., Melick, C.H., Clements, W.K., Stachura, D.L., Distel, M., Panáková, D., MacRae, C., Mork, L.A., Crump, J.G., Traver, D. (2014) Discrete Notch signaling requirements in the specification of hematopoietic stem cells. The EMBO journal. 33(20):2363-73
|
Kim, H., Shin, J., Kim, S., Poling, J., Park, H.C., and Appel, B. (2008) Notch-regulated oligodendrocyte specification from radial glia in the spinal cord of zebrafish embryos. Developmental Dynamics : an official publication of the American Association of Anatomists. 237(8):2081-2089
|
Kim, P.G., Albacker, C.E., Lu, Y.F., Jang, I.H., Lim, Y., Heffner, G.C., Arora, N., Bowman, T.V., Lin, M.I., Lensch, M.W., De Los Angeles, A., Zon, L.I., Loewer, S., and Daley, G.Q. (2013) Signaling axis involving Hedgehog, Notch, and Scl promotes the embryonic endothelial-to-hematopoietic transition. Proceedings of the National Academy of Sciences of the United States of America. 110(2):E141-150
|
|
|
Kishimoto, N., Asakawa, K., Madelaine, R., Blader, P., Kawakami, K., and Sawamoto, K. (2013) Interhemispheric asymmetry of olfactory input-dependent neuronal specification in the adult brain. Nature Neuroscience. 16(7):884-8
|
Kobayashi, I., Kobayashi-Sun, J., Kim, A.D., Pouget, C., Fujita, N., Suda, T., Traver, D. (2014) Jam1a-Jam2a interactions regulate haematopoietic stem cell fate through Notch signalling. Nature. 512(7514):319-23
|
Konantz, M., Alghisi, E., Müller, J.S., Lenard, A., Esain, V., Carroll, K.J., Kanz, L., North, T.E., Lengerke, C. (2016) Evi1 regulates Notch activation to induce zebrafish hematopoietic stem cell emergence. The EMBO journal. 35(21):2315-2331
|
Kozak, E.L., Palit, S., Miranda-Rodríguez, J.R., Janjic, A., Böttcher, A., Lickert, H., Enard, W., Theis, F.J., López-Schier, H. (2020) Epithelial Planar Bipolarity Emerges from Notch-Mediated Asymmetric Inhibition of Emx2. Current biology : CB. 30(6):1142-1151.e6
|
Kozlovskaja-Gumbrienė, A., Yi, R., Alexander, R., Aman, A., Jiskra, R., Nagelberg, D., Knaut, H., McClain, M., Piotrowski, T. (2017) Proliferation-independent regulation of organ size by Fgf/Notch signaling. eLIFE. 6
|
Kraus, J.M., Giovannone, D., Rydzik, R., Balsbaugh, J.L., Moss, I.L., Schwedler, J.L., Bertrand, J.Y., Traver, D., Hankenson, K.D., Crump, J.G., Youngstrom, D.W. (2022) Notch signaling enhances bone regeneration in the zebrafish mandible. Development (Cambridge, England). 149(5)
|
|
|
Kroeger, P.T., Drummond, B.E., Miceli, R., McKernan, M., Gerlach, G.F., Marra, A.N., Fox, A., McCampbell, K.K., Leshchiner, I., Rodriguez-Mari, A., BreMiller, R., Thummel, R., Davidson, A.J., Postlethwait, J., Goessling, W., Wingert, R.A. (2017) The zebrafish kidney mutant zeppelin reveals that brca2/fancd1 is essential for pronephros development. Developmental Biology. 428(1):148-163
|
Krueger, J., Liu, D., Scholz, K., Zimmer, A., Shi, Y., Klein, C., Siekmann, A., Schulte-Merker, S., Cudmore, M., Ahmed, A., le Noble, F. (2011) Flt1 acts as a negative regulator of tip cell formation and branching morphogenesis in the zebrafish embryo. Development (Cambridge, England). 138(10):2111-2120
|
|
|
Lawson, N.D., Scheer, N., Pham, V.N., Kim, C.-H., Chitnis, A.B., Campos-Ortega, J.A., and Weinstein, B.M. (2001) Notch signaling is required for arterial-venous differentiation during embryonic vascular development. Development (Cambridge, England). 128(19):3675-3683
|
Lee, C.Y., Vogeli, K.M., Kim, S.H., Chong, S.W., Jiang, Y.J., Stainier, D.Y., and Jin, S.W. (2009) Notch Signaling Functions as a Cell-Fate Switch between the Endothelial and Hematopoietic Lineages. Current biology : CB. 19(19):1616-1622
|
Lee, Y., Manegold, J.E., Kim, A.D., Pouget, C., Stachura, D.L., Clements, W.K., Traver, D. (2014) FGF signalling specifies haematopoietic stem cells through its regulation of somitic Notch signalling. Nature communications. 5:5583
|
Leslie, J.D., Ariza-McNaughton, L., Bermange, A.L., McAdow, R., Johnson, S.L., and Lewis, J. (2007) Endothelial signalling by the Notch ligand Delta-like 4 restricts angiogenesis. Development (Cambridge, England). 134(5):839-844
|
|
|
Lin, M.I., Price, E.N., Boatman, S., Hagedorn, E.J., Trompouki, E., Satishchandran, S., Carspecken, C.W., Uong, A., DiBiase, A., Yang, S., Canver, M.C., Dahlberg, A., Lu, Z., Zhang, C.C., Orkin, S.H., Bernstein, I.D., Aster, J.C., White, R.M., Zon, L.I. (2015) Angiopoietin-like proteins stimulate HSPC development through interaction with Notch receptor signaling. eLIFE. 4
|
|
|
Lorent, K., Yeo, S.Y., Oda, T., Chandrasekharappa, S., Chitnis, A., Matthews, R.P., and Pack, M. (2004) Inhibition of Jagged-mediated Notch signaling disrupts zebrafish biliary development and generates multi-organ defects compatible with an Alagille syndrome phenocopy. Development (Cambridge, England). 131(22):5753-5766
|
|
|
|
|
|
|
Mizoguchi, T., Fukada, M., Iihama, M., Song, X., Fukagawa, S., Kuwabara, S., Omaru, S., Higashijima, S.I., Itoh, M. (2020) Transient activation of the Notch-her15.1 axis plays an important role in the maturation of V2b interneurons. Development (Cambridge, England). 147(16):
|
|
|
Mouillesseaux, K.P., Wiley, D.S., Saunders, L.M., Wylie, L.A., Kushner, E.J., Chong, D.C., Citrin, K.M., Barber, A.T., Park, Y., Kim, J.D., Samsa, L.A., Kim, J., Liu, J., Jin, S.W., Bautch, V.L. (2016) Notch regulates BMP responsiveness and lateral branching in vessel networks via SMAD6.. Nature communications. 7:13247
|
|
|
Münch, J., Grivas, D., González-Rajal, Á., Torregrosa-Carrión, R., de la Pompa, J.L. (2017) Notch signalling restricts inflammation and serpine1 expression in the dynamic endocardium of the regenerating zebrafish heart.. Development (Cambridge, England). 144(8):1425-1440
|
|
|
North, T.E., Goessling, W., Peeters, M., Li, P., Ceol, C., Lord, A.M., Weber, G.J., Harris, J., Cutting, C.C., Huang, P., Dzierzak, E., and Zon, L.I. (2009) Hematopoietic stem cell development is dependent on blood flow. Cell. 137(4):736-748
|
|
|
|
|
|
|
|
|
Parsons, M.J., Pisharath, H., Yusuff, S., Moore, J.C., Siekmann, A.F., Lawson, N., and Leach, S.D. (2009) Notch-responsive cells initiate the secondary transition in larval zebrafish pancreas. Mechanisms of Development. 126(10):898-912
|
Pavlou, S., Astell, K., Kasioulis, I., Gakovic, M., Baldock, R., van Heyningen, V., and Coutinho, P. (2014) Pleiotropic effects of Sox2 during the development of the zebrafish epithalamus. PLoS One. 9(1):e87546
|
Peng, C.Y., Yajima, H., Burns, C.E., Zon, L.I., Sisodia, S.S., Pfaff, S.L., and Sharma, K. (2007) Notch and MAML signaling drives Scl-dependent interneuron diversity in the spinal cord. Neuron. 53(6):813-827
|
Pinto-Teixeira, F., Viader-Llargués, O., Torres-Mejía, E., Turan, M., González-Gualda, E., Pola-Morell, L., López-Schier, H. (2015) Inexhaustible hair-cell regeneration in young and aged zebrafish. Biology Open. 4(7):903-9
|
Porazzi, P., Marelli, F., Benato, F., de Filippis, T., Calebiro, D., Argenton, F., Tiso, N., and Persani, L. (2012) Disruptions of Global and Jagged1-Mediated Notch Signaling Affect Thyroid Morphogenesis in the Zebrafish. Endocrinology. 153(11):5645-5658
|
Quillien, A., Blanco-Sanchez, B., Halluin, C., Moore, J.C., Lawson, N.D., Blader, P., and Cau, E. (2011) BMP signaling orchestrates photoreceptor specification in the zebrafish pineal gland in collaboration with Notch. Development (Cambridge, England). 138(11):2293-2302
|
Rho, S.S., Kobayashi, I., Oguri-Nakamura, E., Ando, K., Fujiwara, M., Kamimura, N., Hirata, H., Iida, A., Iwai, Y., Mochizuki, N., Fukuhara, S. (2019) Rap1b Promotes Notch-Signal-Mediated Hematopoietic Stem Cell Development by Enhancing Integrin-Mediated Cell Adhesion. Developmental Cell. 49(5):681-696.e6
|
|
|
Romero-Carvajal, A., Navajas Acedo, J., Jiang, L., Kozlovskaja-Gumbrienė, A., Alexander, R., Li, H., Piotrowski, T. (2015) Regeneration of Sensory Hair Cells Requires Localized Interactions between the Notch and Wnt Pathways. Developmental Cell. 34(3):267-82
|
|
|
Samsa, L.A., Givens, C., Tzima, E., Stainier, D.Y., Qian, L., Liu, J. (2015) Cardiac contraction activates endocardial Notch signaling to modulate chamber maturation in zebrafish. Development (Cambridge, England). 142:4080-91
|
|
|
|
|
|
|
|
|
|
|
|
|
Song, Y., Willer, J.R., Scherer, P.C., Panzer, J.A., Kugath, A., Skordalakes, E., Gregg, R.G., Willer, G.B., and Balice-Gordon, R.J. (2010) Neural and Synaptic Defects in slytherin, a Zebrafish Model for Human Congenital Disorders of Glycosylation. PLoS One. 5(10):e13743
|
Swift, M.R., Pham, V.N., Castranova, D., Bell, K., Poole, R.J., Weinstein, B.M. (2014) SoxF factors and Notch regulate nr2f2 gene expression during venous differentiation in zebrafish. Developmental Biology. 390:116-25
|
Taylor, S.M., Alvarez-Delfin, K., Saade, C.J., Thomas, J.L., Thummel, R., Fadool, J.M., Hitchcock, P.F. (2015) The bHLH Transcription Factor NeuroD Governs Photoreceptor Genesis and Regeneration Through Delta-Notch Signaling. Investigative ophthalmology & visual science. 56:7496-7515
|
Troll, J.V., Hamilton, M.K., Abel, M.L., Ganz, J., Bates, J.M., Stephens, W.Z., Melancon, E., van der Vaart, M., Meijer, A.H., Distel, M., Eisen, J.S., Guillemin, K. (2018) Microbiota promote secretory cell determination in the intestinal epithelium by modulating host Notch signaling. Development (Cambridge, England). 145(4)
|
Wada, Y., Tsukatani, H., Kuroda, C., Miyazaki, Y., Otoshi, M., Kobayashi, I. (2022) Jagged 2b induces intercellular signaling within somites to establish hematopoietic stem cell fate in zebrafish. Development (Cambridge, England). 149(7)
|
Walker, S.L., Ariga, J., Mathias, J.R., Coothankandaswamy, V., Xie, X., Distel, M., Köster, R.W., Parsons, M.J., Bhalla, K.N., Saxena, M.T., and Mumm, J.S. (2012) Automated reporter quantification in vivo: high-throughput screening method for reporter-based assays in zebrafish. PLoS One. 7(1):e29916
|
|
|
|
|
Weijts, B., Gutierrez, E., Saikin, S.K., Ablooglu, A.J., Traver, D., Groisman, A., Tkachenko, E. (2018) Blood flow-induced Notch activation and endothelial migration enable vascular remodeling in zebrafish embryos. Nature communications. 9:5314
|
Wibowo, I., Pinto-Teixeira, F., Satou, C., Higashijima, S., and Lopez-Schier, H. (2011) Compartmentalized Notch signaling sustains epithelial mirror symmetry. Development (Cambridge, England). 138(6):1143-1152
|
|
|
Yamamoto, M., Morita, R., Mizoguchi, T., Matsuo, H., Isoda, M., Ishitani, T., Chitnis, A.B., Matsumoto, K., Crump, J.G., Hozumi, K., Yonemura, S., Kawakami, K., and Itoh, M. (2010) Mib-Jag1-Notch signalling regulates patterning and structural roles of the notochord by controlling cell-fate decisions. Development (Cambridge, England). 137(15):2527-2537
|
|
|
|
|
|
|
Zecchin, E., Filippi, A., Biemar, F., Tiso, N., Pauls, S., Ellertsdottir, E., Gnugge, L., Bortolussi, M., Driever, W., and Argenton, F. (2007) Distinct delta and jagged genes control sequential segregation of pancreatic cell types from precursor pools in zebrafish. Developmental Biology. 301(1):192-204
|
Zhang, P., He, Q., Chen, D., Liu, W., Wang, L., Zhang, C., Ma, D., Li, W., Liu, B., Liu, F. (2015) G protein-coupled receptor 183 facilitates endothelial-to-hematopoietic transition via Notch1 inhibition. Cell Research. 25:1093-107
|
Zhao, L., Borikova, A.L., Ben-Yair, R., Guner-Ataman, B., MacRae, C.A., Lee, R.T., Burns, C.G., and Burns, C.E. (2014) Notch signaling regulates cardiomyocyte proliferation during zebrafish heart regeneration. Proceedings of the National Academy of Sciences of the United States of America. 111(4):1403-1408
|
