ZFIN ID: ZDB-ATB-110114-1
CITATIONS (25 total)
Antibody Name: Ab1-cldn5
   
Parab, S., Card, O.A., Chen, Q., America, M., Buck, L.D., Quick, R.E., Horrigan, W.F., Levkowitz, G., Vanhollebeke, B., Matsuoka, R.L. (2023) Local angiogenic interplay of Vegfc/d and Vegfa controls brain region-specific emergence of fenestrated capillaries. eLIFE. 12:
Xie, H., Kang, Y., Liu, J., Huang, M., Dai, Z., Shi, J., Wang, S., Li, L., Li, Y., Zheng, P., Sun, Y., Han, Q., Zhang, J., Zhu, Z., Xu, L., Yelick, P.C., Cao, M., Zhao, C. (2023) Ependymal polarity defects coupled with disorganized ciliary beating drive abnormal cerebrospinal fluid flow and spine curvature in zebrafish. PLoS Biology. 21:e3002008e3002008
Fetsko, A.R., Sebo, D.J., Taylor, M.R. (2022) Brain endothelial cells acquire blood-brain barrier properties in the absence of Vegf-dependent CNS angiogenesis. Developmental Biology. 494:46-59
Hopfenmüller, V.L., Perner, B., Reuter, H., Bates, T.J.D., Große, A., Englert, C. (2022) The Wilms Tumor Gene wt1a Contributes to Blood-Cerebrospinal Fluid Barrier Function in Zebrafish. Frontiers in cell and developmental biology. 9:809962
Li, Y., Wang, C., Zhang, L., Chen, B., Mo, Y., Zhang, J. (2022) Claudin-5a is essential for the functional formation of both zebrafish blood-brain barrier and blood-cerebrospinal fluid barrier. Fluids and barriers of the CNS. 19:40
Ahn, J.C., Hwang, S.J., Lee, H.J., Kim, K.W. (2021) Claudin-5a knockdown attenuates blood-neural barrier in zebrafish. Comparative biochemistry and physiology. Toxicology & pharmacology : CBP. 250:109176
Parab, S., Quick, R.E., Matsuoka, R.L. (2021) Endothelial cell type-specific molecular requirements for angiogenesis drive fenestrated vessel development in the brain. eLIFE. 10:
Yu, P., Li, Y., Zhong, G., Li, W., Chen, B., Zhang, J. (2021) Claudin-5 Affects Endothelial Autophagy in Response to Early Hypoxia. Frontiers in Physiology. 12:737474
Henson, H.E., Taylor, M.R. (2020) A sart1 Zebrafish Mutant Results in Developmental Defects in the Central Nervous System. Cells. 9(11):
Yang, Z., Lin, P., Chen, B., Zhang, X., Xiao, W., Wu, S., Huang, C., Feng, D., Zhang, W., Zhang, J. (2020) Autophagy alleviates hypoxia-induced blood-brain barrier injury via regulation of CLDN5 (claudin 5). Autophagy. 17(10):3048-3067
Yang, Z., Wu, S., Fontana, F., Li, Y., Xiao, W., Gao, Z., Stephan, A., Affolter, M., Belting, H.G., Abdelilah-Seyfried, S., Zhang, J. (2020) The tight junctions protein Claudin-5 limits endothelial cell motility. Journal of Cell Science. 134(1):
Chen, J., He, J., Ni, R., Yang, Q., Zhang, Y., Luo, L. (2019) Cerebrovascular Injuries Induce Lymphatic Invasion into Brain Parenchyma to Guide Vascular Regeneration in Zebrafish. Developmental Cell. 49(5):697-710.e5
Gordon, L., Blechman, J., Shimoni, E., Gur, D., Anand-Apte, B., Levkowitz, G. (2019) Fenestrae-associated protein Plvap regulates the rate of blood-borne proteins passage into the hypophysis. Development (Cambridge, England). 146(23):
Anbalagan, S., Gordon, L., Blechman, J., Matsuoka, R.L., Rajamannar, P., Wircer, E., Biran, J., Reuveny, A., Leshkowitz, D., Stainier, D.Y.R., Levkowitz, G. (2018) Pituicyte Cues Regulate the Development of Permeable Neuro-Vascular Interfaces. Developmental Cell. 47(6):711-726.e5
Pollock, L.M., Xie, J., Bell, B.A., Anand-Apte, B. (2018) Retinoic acid signaling is essential for maintenance of the blood-retinal barrier. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 32(10):5674-5684
van Leeuwen, L.M., Evans, R.J., Jim, K.K., Verboom, T., Fang, X., Bojarczuk, A., Malicki, J., Johnston, S.A., van der Sar, A.M. (2018) A transgenic zebrafish model for the in vivo study of the blood and choroid plexus brain barriers using claudin 5.. Biology Open. 7(2)
Kim, J.G., Bae, S.J., Lee, H.S., Park, J.H., Kim, K.W. (2017) Claudin5a is required for proper inflation of Kupffer's vesicle lumen and organ laterality. PLoS One. 12:e0182047
Xu, B., Zhang, Y., Du, X.F., Li, J., Zi, H.X., Bu, J.W., Yan, Y., Han, H., Du, J.L. (2017) Neurons secrete miR-132-containing exosomes to regulate brain vascular integrity. Cell Research. 27(7):882-897
Henson, H.E., Parupalli, C., Ju, B., Taylor, M.R. (2014) Functional and genetic analysis of choroid plexus development in zebrafish. Frontiers in neuroscience. 8:364
Wang, Y., Pan, L., Moens, C.B., and Appel, B. (2014) Notch3 establishes brain vascular integrity by regulating pericyte number. Development (Cambridge, England). 141(2):307-317
Hyoung Kim, J., Suk Yu, Y., Kim, K.W., and Hun Kim, J. (2011) Investigation of barrier characteristics in the hyaloid-retinal vessel of zebrafish. Journal of neuroscience research. 89(6):921-928
Xie, J., Farage, E., Sugimoto, M., and Anand-Apte, B. (2010) A novel transgenic zebrafish model for blood-brain and blood-retinal barrier development. BMC Developmental Biology. 10:76
Zhang, J., Piontek, J., Wolburg, H., Piehl, C., Liss, M., Otten, C., Christ, A., Willnow, T.E., Blasig, I.E., and Abdelilah-Seyfried, S. (2010) Establishment of a neuroepithelial barrier by Claudin5a is essential for zebrafish brain ventricular lumen expansion. Proceedings of the National Academy of Sciences of the United States of America. 107(4):1425-1430
Jeong, J.Y., Kwon, H.B., Ahn, J.C., Kang, D., Kwon, S.H., Park, J.A., and Kim, K.W. (2008) Functional and developmental analysis of the blood-brain barrier in zebrafish. Brain research bulletin. 75(5):619-628

Additional Citations (1):
ZFIN Staff (2008) Antibody information from supplier. Manually curated data.
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