ZFIN ID: ZDB-ATB-121120-1
CITATIONS (27 total)
Antibody Name: Ab15-h3
   
Abrams, E.W., Fuentes, R., Marlow, F.L., Kobayashi, M., Zhang, H., Lu, S., Kapp, L., Joseph, S.R., Kugath, A., Gupta, T., Lemon, V., Runke, G., Amodeo, A.A., Vastenhouw, N.L., Mullins, M.C. (2020) Molecular genetics of maternally-controlled cell divisions. PLoS Genetics. 16:e1008652
Almuedo-Castillo, M., Bläßle, A., Mörsdorf, D., Marcon, L., Soh, G.H., Rogers, K.W., Schier, A.F., Müller, P. (2018) Scale-invariant patterning by size-dependent inhibition of Nodal signalling. Nature cell biology. 20(9):1032-1042
Cacialli, P., Mahony, C.B., Petzold, T., Bordignon, P., Rougemont, A.L., Bertrand, J.Y. (2021) A connexin/ifi30 pathway bridges HSCs with their niche to dampen oxidative stress. Nature communications. 12:4484
Chan, S.H., Tang, Y., Miao, L., Darwich-Codore, H., Vejnar, C.E., Beaudoin, J.D., Musaev, D., Fernandez, J.P., Benitez, M.D.J., Bazzini, A.A., Moreno-Mateos, M.A., Giraldez, A.J. (2019) Brd4 and P300 Confer Transcriptional Competency during Zygotic Genome Activation. Developmental Cell. 49:867-881.e8
Costa, R., Urbani, A., Salvalaio, M., Bellesso, S., Cieri, D., Zancan, I., Filocamo, M., Bonaldo, P., Szabò, I., Tomanin, R., Moro, E. (2017) Perturbations in cell signaling elicit early cardiac defects in mucopolysaccharidosis type II. Human molecular genetics. 26(9):1643-1655
Espín, R., Roca, F.J., Candel, S., Sepulcre, M.P., González-Rosa, J.M., Alcaraz-Pérez, F., Meseguer, J., Cayuela, M.L., Mercader, N., and Mulero, V. (2013) TNF receptors regulate vascular homeostasis through a caspase-8, caspase-2 and P53 apoptotic program that bypasses caspase-3. Disease models & mechanisms. 6(2):383-396
Fang, X., Xu, S., Zhang, Y., Xu, J., Huang, Z., Liu, W., Wang, S., Yen, K., Zhang, W. (2021) Asxl1 C-terminal mutation perturbs neutrophil differentiation in zebrafish. Leukemia. 35(8):2299-2310
Galindo-Villegas, J., García-Moreno, D., de Oliveira, S., Meseguer, J., and Mulero, V. (2012) Regulation of immunity and disease resistance by commensal microbes and chromatin modifications during zebrafish development. Proceedings of the National Academy of Sciences of the United States of America. 109(39):E2605-2614
González-Rojo, S., Fernández-Díez, C., Lombó, M., Herráez, M.P. (2018) Distribution of DNA damage in the sperm nucleus: A study of zebrafish as a model of histone-packaged chromatin. Theriogenology. 122:109-115
He, W.X., Wu, M., Liu, Z., Li, Z., Wang, Y., Zhou, J., Yu, P., Zhang, X.J., Zhou, L., Gui, J.F. (2018) Oocyte-specific maternal Slbp2 is required for replication-dependent histone storage and early nuclear cleavage in zebrafish oogenesis and embryogenesis. RNA (New York, N.Y.). 24(12):1738-1748
Iribarne, M., Nishiwaki, Y., Nakamura, S., Araragi, M., Oguri, E., Masai, I. (2017) Aipl1 is required for cone photoreceptor function and survival through the stability of Pde6c and Gc3 in zebrafish. Scientific Reports. 7:45962
Joseph, S.R., Pálfy, M., Hilbert, L., Kumar, M., Karschau, J., Zaburdaev, V., Shevchenko, A., Vastenhouw, N.L. (2017) Competition between histone and transcription factor binding regulates the onset of transcription in zebrafish embryos. eLIFE. 6
Kelu, J.J., Pipalia, T.G., Hughes, S.M. (2020) Circadian regulation of muscle growth independent of locomotor activity. Proceedings of the National Academy of Sciences of the United States of America. 117(49):31208-31218
Ladam, F., Stanney, W., Donaldson, I.J., Yildiz, O., Bobola, N., Sagerström, C.G. (2018) TALE factors use two distinct functional modes to control an essential zebrafish gene expression program. eLIFE. 7
Laue, K., Rajshekar, S., Courtney, A.J., Lewis, Z.A., Goll, M.G. (2019) The maternal to zygotic transition regulates genome-wide heterochromatin establishment in the zebrafish embryo. Nature communications. 10:1551
Lin, K.Y., Kao, S.H., Lai, C.M., Chen, C.T., Wu, C.Y., Hsu, H.J., Wang, W.D. (2015) Tumor Suppressor Lzap Suppresses Wnt/β-catenin signaling to Promote Zebrafish Embryonic Ventral Cell Fates via the Suppression of Inhibitory Phosphorylation of GSK3. The Journal of biological chemistry. 290(50):29808-19
Matrone, G., Jung, S.Y., Choi, J.M., Jain, A., Leung, H.E., Rajapakshe, K., Coarfa, C., Rodor, J., Denvir, M.A., Baker, A.H., Cooke, J.P. (2021) Nuclear S-nitrosylation impacts tissue regeneration in zebrafish. Nature communications. 12:6282
Monte, E., Mouillesseaux, K., Chen, H., Kimball, T., Ren, S., Wang, Y., Chen, J.N., Vondriska, T.M., and Franklin, S. (2013) Systems Proteomics of Cardiac Chromatin Identifies Nucleolin as a Regulator of Growth and Cellular Plasticity in Cardiomyocytes. American journal of physiology. Heart and circulatory physiology. 305(11):H1624-38
Ostrup, O., Reiner, A.H., Aleström, P., Collas, P. (2014) The specific alteration of histone methylation profiles by DZNep during early zebrafish development. Biochimica et biophysica acta. Gene regulatory mechanisms. 1839(11):1307-15
Raby, L., Völkel, P., Hasanpour, S., Cicero, J., Toillon, R.A., Adriaenssens, E., Van Seuningen, I., Le Bourhis, X., Angrand, P.O. (2021) Loss of Polycomb Repressive Complex 2 Function Alters Digestive Organ Homeostasis and Neuronal Differentiation in Zebrafish. Cells. 10(11):
Raja, D.A., Subramaniam, Y., Aggarwal, A., Gotherwal, V., Babu, A., Tanwar, J., Motiani, R.K., Sivasubbu, S., Gokhale, R.S., Natarajan, V.T. (2020) Histone variant dictates fate biasing of neural crest cells to melanocyte lineage. Development (Cambridge, England). 147(5):
Tao, B., Hu, H., Chen, J., Chen, L., Luo, D., Sun, Y., Ge, F., Zhu, Z., Trudeau, V.L., Hu, W. (2022) Sinhcaf-dependent histone deacetylation is essential for primordial germ cell specification. EMBO reports. 23(6):e54387
Tyrkalska, S.D., Pérez-Oliva, A.B., Rodríguez-Ruiz, L., Martínez-Morcillo, F.J., Alcaraz-Pérez, F., Martínez-Navarro, F.J., Lachaud, C., Ahmed, N., Schroeder, T., Pardo-Sánchez, I., Candel, S., López-Muñoz, A., Choudhuri, A., Rossmann, M.P., Zon, L.I., Cayuela, M.L., García-Moreno, D., Mulero, V. (2019) Inflammasome Regulates Hematopoiesis through Cleavage of the Master Erythroid Transcription Factor GATA1. Immunity. 51(1):50-63.e5
Velinder, M., Singer, J., Bareyan, D., Meznarich, J., Tracy, C.M., Fulcher, J.M., McClellan, D., Lucente, H., Franklin, S., Sharma, S., Engel, M.E. (2016) GFI1 functions in transcriptional control and cell fate determination require SNAG domain methylation to recruit LSD1. The Biochemical journal. 473(19):3355-69
Völkel, P., Bary, A., Raby, L., Chapart, A., Dupret, B., Le Bourhis, X., Angrand, P.O. (2019) Ezh1 arises from Ezh2 gene duplication but its function is not required for zebrafish development. Scientific Reports. 9:4319
Wu, D., Chen, L., Sun, Q., Wu, X., Jia, S., Meng, A. (2014) Uracil-DNA Glycosylase is involved in DNA demethylation and required for embryonic development in the zebrafish embryo. The Journal of biological chemistry. 289(22):15463-15473
Xue, S., Ly, T.T.N., Vijayakar, R.S., Chen, J., Ng, J., Mathuru, A.S., Magdinier, F., Reversade, B. (2022) HOX epimutations driven by maternal SMCHD1/LRIF1 haploinsufficiency trigger homeotic transformations in genetically wildtype offspring. Nature communications. 13:3583
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