ZFIN ID: ZDB-LAB-050906-1
Draper Laboratory
PI/Director: Draper, Bruce
Contact Person: Draper, Bruce
Email: bwdraper@ucdavis.edu
URL: http://bwdraper.faculty.ucdavis.edu/
Address: Molecular and Cellular Biology University of California, Davis One Shields Avenue Davis, CA 95616
Country: United States
Phone: (530) 752-0833
Fax: (530) 752-3085
Line Designation: uc


GENOMIC FEATURES ORIGINATING FROM THIS LAB
Show all 22 genomic features


STATEMENT OF RESEARCH INTERESTS
Zebrafish gonad development and function, sex determination and maintenance.


LAB MEMBERS
Kossack, Michelle E. Graduate Student Leerberg, Dena M. Graduate Student Liu, Yulong Graduate Student
McFaul, Matthew Graduate Student Wyatt, Sydney Graduate Student Hanz, Rachel E. Technical Staff


ZEBRAFISH PUBLICATIONS OF LAB MEMBERS
Yan, Y.L., Batzel, P., Titus, T., Sydes, J., Desvignes, T., Bremiller, R., Draper, B., Postlethwait, J.H. (2019) A Hormone That Lost Its Receptor: Anti-Müllerian Hormone (AMH) in Zebrafish Gonad Development and Sex Determination. Genetics. 213(2):529-553
Leerberg, D.M., Hopton, R.E., Draper, B.W. (2019) Fibroblast Growth Factor Receptors Function Redundantly During Zebrafish Embryonic Development. Genetics. 212(4):1301-1319
Gordon, W.E., Espinoza, J.A., Leerberg, D.M., Yelon, D., Hamdoun, A. (2019) Xenobiotic transporter activity in zebrafish embryo ionocytes. Aquatic toxicology (Amsterdam, Netherlands). 212:88-97
Blokhina, Y.P., Nguyen, A.D., Draper, B.W., Burgess, S.M. (2019) The telomere bouquet is a hub where meiotic double-strand breaks, synapsis, and stable homolog juxtaposition are coordinated in the zebrafish, Danio rerio. PLoS Genetics. 15:e1007730
Kossack, M.E., Draper, B.W. (2019) Genetic regulation of sex determination and maintenance in zebrafish (Danio rerio). Current topics in developmental biology. 134:119-149
Kossack, M.E., High, S.K., Hopton, R.E., Yan, Y.L., Postlethwait, J.H., Draper, B.W. (2018) Female Sex Development and Reproductive Duct Formation Depend on Wnt4a in Zebrafish. Genetics. 211(1):219-233
Yan, Y.L., Desvignes, T., BreMiller, R., Wilson, C., Dillon, D., High, S., Draper, B., Buck, C.L., Postlethwait, J. (2017) The gonadal soma controls ovarian follicle proliferation through Gsdf in zebrafish. Developmental dynamics : an official publication of the American Association of Anatomists. 246(11):925-945
Leerberg, D.M., Sano, K., Draper, B.W. (2017) Fibroblast growth factor signaling is required for early somatic gonad development in zebrafish. PLoS Genetics. 13:e1006993
Forbes, M.M., Draper, B.W., Marlow, F.L. (2017) Retraction: The polarity factor Bucky ball associates with the centrosome and promotes microtubule rearrangements to establish the oocyte axis in zebrafish. Development (Cambridge, England).
Webster, K.A., Schach, U., Ordaz, A., Steinfeld, J.S., Draper, B.W., Siegfried, K.R. (2017) Dmrt1 is necessary for male sexual development in zebrafish. Developmental Biology. 422(1):33-46
Draper, B.W. (2017) Identification of Germ-Line Stem Cells in Zebrafish. Methods in molecular biology (Clifton, N.J.). 1463:103-113
Dranow, D.B., Hu, K., Bird, A.M., Lawry, S.T., Adams, M.T., Sanchez, A., Amatruda, J.F., Draper, B.W. (2016) Bmp15 Is an Oocyte-Produced Signal Required for Maintenance of the Adult Female Sexual Phenotype in Zebrafish. PLoS Genetics. 12:e1006323
Sun, Y.H., Sun, Y., Zhu, K., Draper, B.W., Zeng, Q., Mogilner, A., Zhao, M. (2016) An Experimental Model for Simultaneous Study of Migration of Cell Fragments, Single Cells, and Cell Sheets. Methods in molecular biology (Clifton, N.J.). 1407:251-72
Dranow, D.B., Tucker, R.P., and Draper, B.W. (2013) Germ cells are required to maintain a stable sexual phenotype in adult zebrafish. Developmental Biology. 376(1):43-50
Beer, R.L., and Draper, B.W. (2013) nanos3 maintains germline stem cells and expression of the conserved germline stem cell gene nanos2 in the zebrafish ovary. Developmental Biology. 374(2):308-318
Du, S., Draper, B.W., Mione, M., Moens, C.B., and Bruce, A.E. (2012) Differential regulation of epiboly initiation and progression by zebrafish Eomesodermin A. Developmental Biology. 362(1):11-23
Draper, B.W. (2012) Identification of oocyte progenitor cells in the zebrafish ovary. Methods in molecular biology (Clifton, N.J.). 916:157-165
Huang, H.Y., Houwing, S., Kaaij, L.J., Meppelink, A., Redl, S., Gauci, S., Vos, H., Draper, B.W., Moens, C.B., Burgering, B.M., Ladurner, P., Krijgsveld, J., Berezikov, E., and Ketting, R.F. (2011) Tdrd1 acts as a molecular scaffold for Piwi proteins and piRNA targets in zebrafish. The EMBO journal. 30(16):3298-308
Wong, A.C., Draper, B.W., and Van Eenennaam, A.L. (2011) FLPe functions in zebrafish embryos. Transgenic Research. 20(2):409-415
Leu, D.H., and Draper, B.W. (2010) The ziwi promoter drives germline-specific gene expression in zebrafish. Developmental dynamics : an official publication of the American Association of Anatomists. 239(10):2714-2721
Draper, B.W., and Moens, C.B. (2009) A high-throughput method for zebrafish sperm cryopreservation and in vitro fertilization. Journal of visualized experiments : JoVE. (29)
Stickney, H.L., Imai, Y., Draper, B., Moens, C. and Talbot, W.S. (2007) Zebrafish bmp4 functions during late gastrulation to specify ventroposterior cell fates. Developmental Biology. 310(1):71-84
Draper, B.W., McCallum, C.M., and Moens, C.B. (2007) nanos1 is required to maintain oocyte production in adult zebrafish. Developmental Biology. 305(2):589-598
Moens, C.B., Draper, B.W., Donn, T., Mullenberg, J., and Wolf-Saxon, E. (2006) Submission and curation of data from a tilling mutagenesis screen. ZFIN Direct Data Submission.
Jackman, W.R., Draper, B.W., and Stock, D.W. (2004) Fgf signaling is required for zebrafish tooth development. Developmental Biology. 274(1):139-157
Draper, B.W., McCallum, C.M., Stout, J.L., Slade, A.J., and Moens, C.B. (2004) A high-throughput method for identifying N-ethyl-N-nitrosourea (ENU)-induced point mutations in zebrafish. The Zebrafish: Genetics, Genomics and Informatics, 2nd ed., Methods Cell Biol.. 77:91-112
Draper, B.W., Stock, D.W., and Kimmel, C.B. (2003) Zebrafish fgf24 functions with fgf8 to promote posterior mesodermal development. Development (Cambridge, England). 130(19):4639-4654
Fischer, S., Draper, B.W., and Neumann, C.J. (2003) The zebrafish fgf24 mutant identifies an additional level of Fgf signaling involved in vertebrate forelimb initiation. Development (Cambridge, England). 130(15):3515-3524
Yan, Y.-L., Miller, C.T., Nissen, R.M., Singer, A., Liu, D., Kirn, A., Draper, B., Willoughby, J., Morcos, P.A., Amsterdam, A., Chung, B.-C., Westerfield, M., Haffter, P., Hopkins, N., Kimmel, C., and Postlethwait, J.H. (2002) A zebrafish sox9 gene required for cartilage morphogenesis. Development (Cambridge, England). 129(21):5065-5079
Amacher, S.L., Draper, B.W., Summers, B.R., and Kimmel, C.B. (2002) The zebrafish T-box genes no tail and spadetail are required for development of trunk and tail mesoderm and medial floor plate. Development (Cambridge, England). 129(14):3311-3323
Draper, B.W., Morcos, P.A., and Kimmel, C.B. (2001) Inhibition of zebrafish fgf8 pre-mRNA splicing with morpholino oligos: A quantifiable method for gene knockdown. Genesis (New York, N.Y. : 2000). 30(3):154-156
Grandel, H., Draper, B.W., and Schulte-Merker, S. (2000) dackel acts in the ectoderm of the zebrafish pectoral fin bud to maintain AER signaling. Development (Cambridge, England). 127(19):4169-4178
Draper, B. W., Phillips, J.B., Stock, D.W., and Kimmel, C.B. (1999) FGF signaling and mesodermal patterning in the zebrafish embryo. Developmental Biology. 210(1):151-180