ZFIN ID: ZDB-LAB-090216-1
Bronner-Fraser Lab
PI/Director: Bronner-Fraser, Marianne
Contact Person:
Email: mbronner@caltech.edu
URL:
Address: 234 Beckman Institute MC 139-74 Pasadena CA 91125
Country: United States
Phone: 626-395-3361
Fax:
Line Designation: ct


GENOMIC FEATURES ORIGINATING FROM THIS LAB
Show all 4 genomic features


STATEMENT OF RESEARCH INTERESTS


LAB MEMBERS
Gonzalez-Serricchio, Aidyl Post-Doc Hochgreb, Tatiana Post-Doc Chow, Elly Graduate Student


ZEBRAFISH PUBLICATIONS OF LAB MEMBERS
Tzung, K.W., Lalonde, R.L., Prummel, K.D., Mahabaleshwar, H., Moran, H.R., Stundl, J., Cass, A.N., Le, Y., Lea, R., Dorey, K., Tomecka, M.J., Zhang, C., Brombacher, E.C., White, W.T., Roehl, H.H., Tulenko, F.J., Winkler, C., Currie, P.D., Amaya, E., Davis, M.C., Bronner, M.E., Mosimann, C., Carney, T.J. (2023) A median fin derived from the lateral plate mesoderm and the origin of paired fins. Nature. 618(7965):543-549
Parker, H.J., De Kumar, B., Pushel, I., Bronner, M.E., Krumlauf, R. (2021) Analyses of lamprey meis genes reveals that conserved inputs from hox, Meis and Pbx proteins control their expression in the hindbrain and neural tube. Developmental Biology. 479:61-76
El-Nachef, W.N., Bronner, M.E. (2020) De novo enteric neurogenesis in post-embryonic zebrafish from Schwann cell precursors rather than resident cell types. Development (Cambridge, England). 147(13):
Martik, M.L., Gandhi, S., Uy, B.R., Gillis, J.A., Green, S.A., Simoes-Costa, M., Bronner, M.E. (2019) Evolution of the new head by gradual acquisition of neural crest regulatory circuits. Nature. 574(7780):675-678
Prummel, K.D., Hess, C., Nieuwenhuize, S., Parker, H.J., Rogers, K.W., Kozmikova, I., Racioppi, C., Brombacher, E.C., Czarkwiani, A., Knapp, D., Burger, S., Chiavacci, E., Shah, G., Burger, A., Huisken, J., Yun, M.H., Christiaen, L., Kozmik, Z., Müller, P., Bronner, M., Krumlauf, R., Mosimann, C. (2019) A conserved regulatory program initiates lateral plate mesoderm emergence across chordates. Nature communications. 10:3857
Tang, W., Martik, M.L., Li, Y., Bronner, M.E. (2019) Cardiac neural crest contributes to cardiomyocytes in amniotes and heart regeneration in zebrafish. eLIFE. 8:
Parker, H.J., De Kumar, B., Green, S.A., Prummel, K.D., Hess, C., Kaufman, C.K., Mosimann, C., Wiedemann, L.M., Bronner, M.E., Krumlauf, R. (2019) A Hox-TALE regulatory circuit for neural crest patterning is conserved across vertebrates. Nature communications. 10:1189
Rajan, S.G., Gallik, K.L., Monaghan, J.R., Uribe, R.A., Bronner, M.E., Saxena, A. (2018) Tracking neural crest cell cycle progression in vivo. Genesis (New York, N.Y. : 2000). 56(6-7):e23214
Uribe, R.A., Hong, S.S., Bronner, M.E. (2017) Retinoic acid temporally orchestrates colonization of the gut by vagal neural crest cells. Developmental Biology. 433(1):17-32
Suarez-Bregua, P., Saxena, A., Bronner, M.E., Rotllant, J. (2017) Targeted Pth4-expressing cell ablation impairs skeletal mineralization in zebrafish. PLoS One. 12:e0186444
Suarez-Bregua, P., Torres-Nuñez, E., Saxena, A., Guerreiro, P., Braasch, I., Prober, D.A., Moran, P., Cerda-Reverter, J.M., Du, S.J., Adrio, F., Power, D.M., Canario, A.V., Postlethwait, J.H., Bronner, M.E., Cañestro, C., Rotllant, J. (2017) Pth4, an ancient parathyroid hormone lost in eutherian mammals, reveals a new brain-to-bone signaling pathway. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 31:569-583
Choi, H.M., Calvert, C.R., Husain, N., Huss, D., Barsi, J.C., Deverman, B.E., Hunter, R.C., Kato, M., Lee, S.M., Abelin, A.C., Rosenthal, A.Z., Akbari, O.S., Li, Y., Hay, B.A., Sternberg, P.W., Patterson, P.H., Davidson, E.H., Mazmanian, S.K., Prober, D.A., van de Rijn, M., Leadbetter, J.R., Newman, D.K., Readhead, C., Bronner, M.E., Wold, B., Lansford, R., Sauka-Spengler, T., Fraser, S.E., Pierce, N.A. (2016) Mapping a multiplexed zoo of mRNA expression. Development (Cambridge, England). 143:3632-3637
Uribe, R.A., Gu, T., Bronner, M.E. (2016) A novel subset of enteric neurons revealed by ptf1a:GFP in the developing zebrafish enteric nervous system. Genesis (New York, N.Y. : 2000). 54(3):123-8
Uribe, R.A., Bronner, M.E. (2015) Meis3 is required for neural crest invasion of the gut during zebrafish enteric nervous system development. Molecular biology of the cell. 26(21):3728-40
Barriga, E.H., Trainor, P.A., Bronner, M., Mayor, R. (2015) Animal models for studying neural crest development: is the mouse different?. Development (Cambridge, England). 142:1555-60
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
Parker, H.J., Bronner, M.E., Krumlauf, R. (2014) A Hox regulatory network of hindbrain segmentation is conserved to the base of vertebrates. Nature. 514(7523):490-3
Saxena, A., Bronner, M.E. (2014) A novel HoxB cluster protein expressed in the hindbrain and pharyngeal arches. Genesis (New York, N.Y. : 2000). 52(10):858-63
Wang, K., Milkie, D.E., Saxena, A., Engerer, P., Misgeld, T., Bronner, M.E., Mumm, J., Betzig, E. (2014) Rapid adaptive optical recovery of optimal resolution over large volumes. Nature Methods. 11(6):625-8
Hochgreb-Hägele, T., Koo, D.E., Das, N.M., and Bronner, M.E. (2014) Zebrafish stem/progenitor factor msi2b exhibits two phases of activity mediated by different splice variants. Stem cells (Dayton, Ohio). 32(2):558-571
Hochgreb-Hägele, T., Yin, C., Koo, D.E., Bronner, M.E., and Stainier, D.Y. (2013) Laminin beta1a controls distinct steps during the establishment of digestive organ laterality. Development (Cambridge, England). 140(13):2734-2745
Saxena, A., Peng, B.N., and Bronner, M.E. (2013) Sox10-dependent neural crest origin of olfactory microvillous neurons in zebrafish. eLIFE. 2:e00336
Hochgreb-Hägele, T., and Bronner, M.E. (2013) A novel FoxD3 gene trap line reveals neural crest precursor movement and a role for FoxD3 in their specification. Developmental Biology. 374(1):1-11
Jayasena, C.S., and Bronner, M.E. (2012) Rbms3 functions in craniofacial development by posttranscriptionally modulating TGF-β signaling. The Journal of cell biology. 199(3):453-466
Parker, H.J., Piccinelli, P., Sauka-Spengler, T., Bronner, M., and Elgar, G. (2011) Ancient Pbx-Hox Signatures Define Hundreds of Vertebrate Developmental Enhancers. BMC Genomics. 12(1):637
Jayasena, C.S., Trinh, L.A., and Bronner, M. (2011) Live imaging of endogenous periodic tryptophan protein 2 gene homologue during zebrafish development. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(11):2578-83
Trinh, A., Hochgreb, T., Graham, M., Wu, D., Ruf-Zamojski, F., Jayasena, C.S., Saxena, A., Hawk, R., Gonzalez-Serricchio, A., Dixson, A., Chow, E., Gonzales, C., Leung, H.Y., Solomon, I., Bronner-Fraser, M., Megason, S.G., and Fraser, S.E. (2011) A versatile gene trap to visualize and interrogate the function of the vertebrate proteome. Genes & Development. 25(21):2306-20
Jayasena, C.S., and Bronner-Fraser, M. (2011) Live imaging of endogenous Collapsin response mediator protein-1 expression at subcellular resolution during zebrafish nervous system development. Gene expression patterns : GEP. 11(7):395-400
Nikitina, N., Tong, L., and Bronner, M.E. (2011) Ancestral network module regulating prdm1 expression in the lamprey neural plate border. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(10):2265-2271
Yin, C., Kikuchi, K., Hochgreb, T., Poss, K.D., and Stainier, D.Y. (2010) Hand2 Regulates Extracellular Matrix Remodeling Essential for Gut-Looping Morphogenesis in Zebrafish. Developmental Cell. 18(6):973-984
Castillo, H.A., Cravo, R.M., Azambuja, A.P., Simões-Costa, M.S., Sura-Trueba, S., Gonzalez, J., Slonimsky, E., Almeida, K., Abreu, J.G., de Almeida, M.A., Sobreira, T.P., de Oliveira, S.H., de Oliveira, P.S., Signore, I.A., Colombo, A., Concha, M.L., Spengler, T.S., Bronner-Fraser, M., Nobrega, M., Rosenthal, N., and Xavier-Neto, J. (2010) Insights into the organization of dorsal spinal cord pathways from an evolutionarily conserved raldh2 intronic enhancer. Development (Cambridge, England). 137(3):507-518
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