ZFIN ID: ZDB-PERS-970424-80
Danilova, Nadia
Email: ndanilova@gmail.com
Affiliation: Shuo Lin Lab
and also: Steiner Lab
Address: Dept. of Molecular,Cell and Developmental Biology University of California 4315 Life Sciences Building 621 Charles E. Young Drive Los Angeles, CA 90095 USA
Phone: (617) 253-6705
Fax: (617) 253-8699

I am working on the immune system of zebrafish.

Danilova, N., Wilkes, M., Bibikova, E., Youn, M.Y., Sakamoto, K.M., Lin, S. (2018) Innate immune system activation in zebrafish and cellular models of Diamond Blackfan Anemia. Scientific Reports. 8:5165
Bibikova, E., Youn, M.Y., Danilova, N., Ono-Uruga, Y., Konto-Ghiorghi, Y., Ochoa, R., Narla, A., Glader, B., Lin, S., Sakamoto, K.M. (2014) TNF-mediated inflammation represses GATA1 and activates p38 MAP kinase in RPS19-deficient hematopoietic progenitors. Blood. 124(25):3791-8
Danilova, N., Bibikova, E., Covey, T.M., Nathanson, D., Dimitrova, E., Konto, Y., Lindgren, A., Glader, B., Radu, C.G., Sakamoto, K.M., Lin, S. (2014) The role of DNA damage response in zebrafish and cellular models of Diamond Blackfan Anemia. Disease models & mechanisms. 7(7):895-905
Zhang, Y., Morimoto, K., Danilova, N., Zhang, B., and Lin, S. (2012) Zebrafish Models for Dyskeratosis Congenita Reveal Critical Roles of p53 Activation Contributing to Hematopoietic Defects through RNA Processing. PLoS One. 7(1):e30188
Danilova, N., Sakamoto, K.M., and Lin, S. (2011) Ribosomal protein L11 mutation in zebrafish leads to haematopoietic and metabolic defects. British journal of haematology. 152(2):217-228
Danilova, N., Kumagai, A., and Lin, J. (2010) p53 Upregulation Is a Frequent Response to Deficiency of Cell-Essential Genes. PLoS One. 5(12):e15938
Danilova, N., Sakamoto, K.M., and Lin, S. (2008) Ribosomal protein S19 deficiency in zebrafish leads to developmental abnormalities and defective erythropoiesis through activation of p53 protein family. Blood. 112(13):5228-5237
Danilova, N., Sakamoto, K.M., and Lin, S. (2008) Role of p53 family in birth defects: Lessons from zebrafish. Birth defects research. Part C, Embryo today : reviews. 84(3):215-227
Danilova, N. (2005) Analysis of recombination signal sequences in zebrafish. Molecular immunology. 42(10):1243-1249
Danilova, N., Bussmann, J., Jekosch, K., and Steiner, L.A. (2005) The immunoglobulin heavy-chain locus in zebrafish: identification and expression of a previously unknown isotype, immunoglobulin Z. Nature immunology. 6(3):295-302
Danilova, N., Visel, A., Willett, C.E., and Steiner, L.A. (2004) Expression of the winged helix/forkhead gene, foxn4, during zebrafish development. Dev. Brain Res.. 153(1):115-119
Danilova, N., Hohman, V.S., Sacher, F., Ota, T., Willett, C.E., and Steiner, L.A. (2004) T cells and the thymus in developing zebrafish. Developmental and comparative immunology. 28(7-8):755-767
Danilova, N., Krupnik, V.E., Sugden, D., and Zhdanova, I.V. (2004) Melatonin stimulates cell proliferation in zebrafish embryo and accelerates its development. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 18(6):751-753
Steiner, L.A., Willett, C.E., and Danilova, N. (2004) The immune system in zebrafish. In Biology of B Cells, 3rd edition, Alt, F.W., Honjo, T., and Neuberger, M.S., eds., in press.
Danilova, N. and Steiner, L.A. (2002) B cells develop in the zebrafish pancreas. Proceedings of the National Academy of Sciences of the United States of America. 99(21):13711-13716
Zhdanova, I.V., Wang, S.Y., Leclair, O.U., and Danilova, N.P. (2001) Melatonin promotes sleep-like state in zebrafish(1). Brain research. 903(1-2):263-268
Danilova, N., Hohman, V.S., Kim, E.H., and Steiner, L.A. (2000) Immunoglobulin variable-region diversity in the zebrafish. Immunogenetics. 52(1-2):81-91