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ZFIN ID:
ZDB-ATB-130424-3
CITATIONS
(20 total)
Antibody Name:
Ab1-aldh1a2
Morocho-Jaramillo, P.A., Kotlar-Goldaper, I., Zakarauskas-Seth, B.I., Purfürst, B., Filosa, A., Sawamiphak, S. (2024) The zebrafish heart harbors a thermogenic beige fat depot analog of human epicardial adipose tissue. Cell Reports. 43:113955113955
Peterson, E.A., Sun, J., Chen, X., Wang, J. (2024) Neutrophils facilitate the epicardial regenerative response after zebrafish heart injury. Developmental Biology. 508:93-106
Seaver, A.W., Weaver, N.S., Iovine, M.K. (2023) Retinoic Acid Influences
connexin43
Expression During Joint Formation in the Regenerating Zebrafish Fin. Bioelectricity. 5:173180173-180
Marques, I.J., Ernst, A., Arora, P., Vianin, A., Hetke, T., Sanz-Morejón, A., Naumann, U., Odriozola, A., Langa, X., Andrés-Delgado, L., Zuber, B., Torroja, C., Osterwalder, M., Simões, F., Englert, C., Mercader, N. (2022) WT1 transcription factor impairs cardiomyocyte specification and drives a phenotypic switch from myocardium to epicardium. Development (Cambridge, England). 149(6):
Shin, K., Begeman, I.J., Cao, J., Kang, J. (2022) leptin b and its regeneration enhancer illustrate the regenerative features of zebrafish hearts. Developmental Dynamics : an official publication of the American Association of Anatomists. 253(1):91-106
Xia, Y., Duca, S., Perder, B., Dündar, F., Zumbo, P., Qiu, M., Yao, J., Cao, Y., Harrison, M.R.M., Zangi, L., Betel, D., Cao, J. (2022) Activation of a transient progenitor state in the epicardium is required for zebrafish heart regeneration. Nature communications. 13:77047704
Allanki, S., Strilic, B., Scheinberger, L., Onderwater, Y.L., Marks, A., Günther, S., Preussner, J., Kikhi, K., Looso, M., Stainier, D.Y.R., Reischauer, S. (2021) Interleukin-11 signaling promotes cellular reprogramming and limits fibrotic scarring during tissue regeneration. Science advances. 7:eabg6497
Grivas, D., González-Rajal, Á., de la Pompa, J.L. (2021) Midkine-a Regulates the Formation of a Fibrotic Scar During Zebrafish Heart Regeneration. Frontiers in cell and developmental biology. 9:669439
Begeman, I.J., Shin, K., Osorio-Méndez, D., Kurth, A., Lee, N., Chamberlain, T.J., Pelegri, F.J., Kang, J. (2020) Decoding an Organ Regeneration Switch by Dissecting Cardiac Regeneration Enhancers. Development (Cambridge, England). 147(24):
Harrison, M.R., Feng, X., Mo, G., Aguayo, A., Villafuerte, J., Yoshida, T., Pearson, C.A., Schulte-Merker, S., Lien, C.L. (2019) Late developing cardiac lymphatic vasculature supports adult zebrafish heart function and regeneration. eLIFE. 8:
Lowe, V., Wisniewski, L., Sayers, J., Evans, I., Frankel, P., Mercader-Huber, N., Zachary, I.C., Pellet-Many, C. (2019) Neuropilin 1 mediates epicardial activation and revascularization in the regenerating zebrafish heart. Development (Cambridge, England). 146(13):
Marín-Juez, R., El-Sammak, H., Helker, C.S.M., Kamezaki, A., Mullapuli, S.T., Bibli, S.I., Foglia, M.J., Fleming, I., Poss, K.D., Stainier, D.Y.R. (2019) Coronary Revascularization During Heart Regeneration Is Regulated by Epicardial and Endocardial Cues and Forms a Scaffold for Cardiomyocyte Repopulation. Developmental Cell. 51:503-515.e4
Xu, J., Jia, Y.F., Tapadar, S., Weaver, J.D., Raji, I.O., Pithadia, D.J., Javeed, N., García, A.J., Choi, D.S., Matveyenko, A.V., Oyelere, A.K., Shin, C.H. (2018) Inhibition of TBK1/IKKε Promotes Regeneration of Pancreatic β-cells. Scientific Reports. 8:15587
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
Cheng, F., Miao, L., Wu, Q., Gong, X., Xiong, J., Zhang, J. (2016) Vinculin b deficiency causes epicardial hyperplasia and coronary vessel disorganization in zebrafish. Development (Cambridge, England). 143(19):3522-3531
Marro, J., Pfefferli, C., de Preux Charles, A.S., Bise, T., Jaźwińska, A. (2016) Collagen XII Contributes to Epicardial and Connective Tissues in the Zebrafish Heart during Ontogenesis and Regeneration. PLoS One. 11:e0165497
Sallin, P., Jaźwińska, A. (2016) Acute stress is detrimental to heart regeneration in zebrafish. Open Biology. 6(3)
Ito, K., Morioka, M., Kimura, S., Tasaki, M., Inohaya, K., Kudo, A. (2014) Differential reparative phenotypes between zebrafish and medaka after cardiac injury. Developmental Dynamics : an official publication of the American Association of Anatomists. 243(9):1106-15
Chablais, F., and Jazwinska, A. (2012) The regenerative capacity of the zebrafish heart is dependent on TGFβ signaling. Development (Cambridge, England). 139(11):1921-1930
Additional Citations (1):
ZFIN Staff (2008) Antibody information from supplier. Manually curated data.
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