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ZFIN ID:
ZDB-ATB-120313-2
CITATIONS
(21 total)
Antibody Name:
Ab2-krt
Abrams, J., Einhorn, Z., Seiler, C., Zong, A.B., Sweeney, H.L., Pack, M. (2016) Graded effects of unregulated smooth muscle myosin on intestinal architecture, intestinal motility, and vascular function in zebrafish. Disease models & mechanisms. 9(5):529-40
Burger, A., Vasilyev, A., Tomar, R., Selig, M.K., Nielsen, G.P., Peterson, R.T., Drummond, I.A., and Haber, D.A. (2014) A zebrafish model of chordoma initiated by notochord-driven expression of HRASV12. Disease models & mechanisms. 7(7):907-13
Ceriani, R., Whitlock, K.E. (2021) Gonadotropin Releasing Hormone (Gnrh) Triggers Neurogenesis in the Hypothalamus of Adult Zebrafish. International Journal of Molecular Sciences. 22(11):
Cronan, M.R., Beerman, R.W., Rosenberg, A.F., Saelens, J.W., Johnson, M.G., Oehlers, S.H., Sisk, D.M., Jurcic Smith, K.L., Medvitz, N.A., Miller, S.E., Trinh, L.A., Fraser, S.E., Madden, J.F., Turner, J., Stout, J.E., Lee, S., Tobin, D.M. (2016) Macrophage Epithelial Reprogramming Underlies Mycobacterial Granuloma Formation and Promotes Infection. Immunity. 45:861-876
D'Agati, G., Cabello, E.M., Frontzek, K., Rushing, E.J., Klemm, R., Robinson, M.D., White, R.M., Mosimann, C., Burger, A. (2019) Active receptor tyrosine kinases, but not Brachyury, are sufficient to trigger chordoma in zebrafish. Disease models & mechanisms. 12(7):
Jewett, C.E., Appel, B.H., Prekeris, R. (2020) The Rab11 effectors Fip5 and Fip1 regulate zebrafish intestinal development. Biology Open. 9(10):
Kim, D.H., Kim, E.J., Kim, D.H., Park, S.W. (2020) Dact2 is involved in the regulation of epithelial-mesenchymal transition. Biochemical and Biophysical Research Communications. 524(1):190-197
König, D., Dagenais, P., Senk, A., Djonov, V., Aegerter, C.M., Jaźwińska, A. (2019) Distribution and Restoration of Serotonin-Immunoreactive Paraneuronal Cells During Caudal Fin Regeneration in Zebrafish. Frontiers in molecular neuroscience. 12:227
Meritet, D.M., Spagnoli, S.T., Fischer, K.A., Löhr, C.V. (2019) Evaluating the Effects of Various Decalcification Protocols on Immunohistochemical Staining in Zebrafish (
Danio rerio
). Zebrafish. 16(3):280-290
Oppel, F., Ki, D.H., Zimmermann, M.W., Ross, K.N., Tao, T., Shi, H., He, S., Aster, J.C., Look, A.T. (2020)
suz12
inactivation in
p53
and
nf1
deficient zebrafish accelerates the onset of MPNSTs and expands the spectrum of tumor types to include adenocarcinoma, leukemia, and soft tissue sarcoma. Disease models & mechanisms. 13(8):
Oppel, F., Shao, S., Gendreizig, S., Zimmerman, M.W., Schürmann, M., Viyof Ful, F., Goon, P., Chi, S.N., Aster, J.C., Sudhoff, H., Look, A.T. (2022) p53 pathway inactivation drives SMARCB1-deficient p53-wildtype epithelioid sarcoma onset indicating therapeutic vulnerability through MDM2 inhibition. Molecular cancer therapeutics. 21(11):1689-1700
Pack, M., Solnica-Krezel, L., Malicki, J., Neuhauss, S.C., Schier, A-, F., Stemple, D.L., Driever, W., and Fishman, M.C. (1996) Mutations affecting development of zebrafish digestive organs. Development (Cambridge, England). 123:321-328
Paquette, C.E., Kent, M.L., Peterson, T.S., Wang, R., Dashwood, R.H., Löhr, C.V. (2015) Immunohistochemical characterization of intestinal neoplasia in zebrafish Danio rerio indicates epithelial origin. Diseases of aquatic organisms. 116:191-7
Pinto, C.S., Khandekar, A., Bhavna, R., Kiesel, P., Pigino, G., Sonawane, M. (2019) Microridges are apical epithelial projections formed of F-actin networks that organize the glycan layer. Scientific Reports. 9:12191
Progatzky, F., Jha, A., Wane, M., Thwaites, R.S., Makris, S., Shattock, R.J., Johansson, C., Openshaw, P.J., Bugeon, L., Hansel, T.T., Dallman, M.J. (2019) Induction of innate cytokine responses by respiratory mucosal challenge with R848 in zebrafish, mice and humans. The Journal of allergy and clinical immunology. 144(1):342-345.e7
Rangel-Huerta, E., Guzman, A., Maldonado, E. (2020) The Dynamics of Epidermal Stratification During Post-larval Development in Zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 250(2):175-190
Scahill, C.M., Digby, Z., Sealy, I.M., Wojciechowska, S., White, R.J., Collins, J.E., Stemple, D.L., Bartke, T., Mathers, M.E., Patton, E.E., Busch-Nentwich, E.M. (2017) Loss of the chromatin modifier Kdm2aa causes BrafV600E-independent spontaneous melanoma in zebrafish. PLoS Genetics. 13:e1006959
Seiler, C., Davuluri, G., Abrams, J., Byfield, F.J., Janmey, P.A., and Pack, M. (2012) Smooth muscle tension induces invasive remodeling of the zebrafish intestine. PLoS Biology. 10(9):e1001386
Sidhaye, J., Pinto, C.S., Dharap, S., Jacob, T., Bhargava, S., Sonawane, M. (2016) The zebrafish goosepimples/myosin Vb mutant exhibits cellular attributes of human microvillus inclusion disease. Mechanisms of Development. 142:62-74
Teixeira Rosa, J., Oralová, V., Larionova, D., Eisenhoffer, G.T., Eckhard Witten, P., Huysseune, A. (2019) Periderm invasion contributes to epithelial formation in the teleost pharynx. Scientific Reports. 9:10082
Additional Citations (1):
ZFIN Staff (2008) Antibody information from supplier. Manually curated data.
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