OBO ID: DOID:0050567

Citations

(23 total)

Term: orofacial cleft

Swatowska, P., Odrzywolski, A., Kuźniarz, K., Tylzanowski, P. (2025) Compound inheritance of EHHADH and MASP1 mutations contributes to nonsyndromic cleft lip: familial analysis and zebrafish models. Biology Open. 14:
Caetano da Silva, C., Macias Trevino, C., Mitchell, J., Murali, H., Tsimbal, C., Dalessandro, E., Carroll, S.H., Kochhar, S., Curtis, S.W., Cheng, C.H.E., Wang, F., Kutschera, E., Carstens, R.P., Xing, Y., Wang, K., Leslie, E.J., Liao, E.C. (2024) Functional analysis of ESRP1/2 gene variants and CTNND1 isoforms in orofacial cleft pathogenesis. Communications biology. 7:1040
Ishorst, N., Hölzel, S., Greve, C., Yilmaz, Ö., Lindenberg, T., Lambertz, J., Drichel, D., Zametica, B., Mingardo, E., Kalanithy, J.C., Channab, K., Kibris, D., Henne, S., Degenhardt, F., Siewert, A., Dixon, M., Kruse, T., Ongkosuwito, E., Girisha, K.M., Pande, S., Nowak, S., Hagelueken, G., Geyer, M., Carels, C., van Rooij, I.A.L.M., Ludwig, K.U., Odermatt, B., Mangold, E. (2024) Role of ZFHX4 in orofacial clefting based on human genetic data and zebrafish models. European journal of human genetics : EJHG. 33:595-606
Liu, S., Xu, L., Kashima, M., Narumi, R., Takahata, Y., Nakamura, E., Shibuya, H., Tamura, M., Shida, Y., Inubushi, T., Nukada, Y., Miyazawa, M., Hata, K., Nishimura, R., Yamashiro, T., Tasaki, J., Kurosaka, H. (2024) Expression analysis of genes including Zfhx4 in mice and zebrafish reveals a temporospatial conserved molecular basis underlying craniofacial development. Developmental Dynamics : an official publication of the American Association of Anatomists. 254:257-271
Sun, J., Li, M., Sun, H., Lin, Z., Shi, B., Jia, Z. (2024) Genetic association and functional validation of ZFP36L2 in non-syndromic orofacial cleft subtypes. Journal of Human Genetics. 69(3-4):139-144
Maili, L., Tandon, B., Yuan, Q., Menezes, S., Chiu, F., Hashmi, S.S., Letra, A., Eisenhoffer, G.T., Hecht, J.T. (2023) Disruption of fos causes craniofacial anomalies in developing zebrafish. Frontiers in cell and developmental biology. 11:1141893
Alvizi, L., Brito, L.A., Kobayashi, G.S., Bischain, B., da Silva, C.B.F., Ramos, S.L.G., Wang, J., Passos-Bueno, M.R. (2022) mir152 hypomethylation as a mechanism for non-syndromic cleft lip and palate. Epigenetics. 17(13):2278-2295
He, Q., Hao, X., Bao, S., Wu, X., Xu, L., Hou, Y., Huang, Y., Peng, L., Huang, H., Ding, Y., Zhao, H. (2022) A392V and R945X mutations cause orofacial clefts via impairing PTCH1 function. Genomics. 114(6):110507
Lansdon, L.A., Dickinson, A., Arlis, S., Liu, H., Hlas, A., Hahn, A., Bonde, G., Long, A., Standley, J., Tyryshkina, A., Wehby, G., Lee, N.R., Daack-Hirsch, S., Mohlke, K., Girirajan, S., Darbro, B.W., Cornell, R.A., Houston, D.W., Murray, J.C., Manak, J.R. (2022) Genome-wide analysis of copy number variation in humans with cleft lip and/or cleft palate identifies COBLL1, RIC1, and ARHGEF38 as clefting genes. American journal of human genetics. 110(1):71-91
Yu, Y., Alvarado, R., Petty, L.E., Bohlender, R.J., Shaw, D.M., Below, J.E., Bejar, N., Ruiz, O.E., Tandon, B., Eisenhoffer, G.T., Kiss, D.L., Huff, C.D., Letra, A., Hecht, J.T. (2022) Polygenic risk impacts PDGFRA mutation penetrance in nonsyndromic cleft lip and palate. Human molecular genetics. 31(14):2348-2357
Gebuijs, I.G.E., Metz, J.R., Zethof, J., Carels, C.E.L., Wagener, F.A.D.T.G., Von den Hoff, J.W. (2020) The anti-epileptic drug valproic acid causes malformations in the developing craniofacial skeleton of zebrafish larvae. Mechanisms of Development. 163:103632
Ma, L., Lou, S., Miao, Z., Yao, S., Yu, X., Kan, S., Zhu, G., Yang, F., Zhang, C., Zhang, W., Wang, M., Wang, L., Pan, Y. (2020) Identification of novel susceptibility loci for non-syndromic cleft lip with or without cleft palate. Journal of Cellular and Molecular Medicine. 24(23):13669-13678
Li, D., Zhu, G., Lou, S., Ma, L., Zhang, C., Pan, Y., Wang, L. (2019) The functional variant of NTN1 contributes to the risk of nonsyndromic cleft lip with or without cleft palate. European journal of human genetics : EJHG. 28(4):453-460
Chiquet, B.T., Yuan, Q., Swindell, E.C., Maili, L., Plant, R., Dyke, J., Boyer, R., Teichgraeber, J.F., Greives, M.R., Mulliken, J.B., Letra, A., Blanton, S.H., Hecht, J.T. (2018) Knockdown of Crispld2 in zebrafish identifies a novel network for nonsyndromic cleft lip with or without cleft palate candidate genes. European journal of human genetics : EJHG. 26(10):1441-1450
Duncan, K., Mukherjee, K., Cornell, R.A., Liao, E.C. (2017) Zebrafish models of orofacial clefts. Developmental Dynamics : an official publication of the American Association of Anatomists. 246(11):897-914
Liu, H., Leslie, E.J., Carlson, J.C., Beaty, T.H., Marazita, M.L., Lidral, A.C., Cornell, R.A. (2017) Identification of common non-coding variants at 1p22 that are functional for non-syndromic orofacial clefting. Nature communications. 8:14759
Signore, I.A., Jerez, C., Figueroa, D., Suazo, J., Marcelain, K., Cerda, O., Flores, A.C. (2016) Inhibition of the 3-hydroxy-3-methyl-glutaryl-CoA reductase induces orofacial defects in zebrafish. Birth defects research. Part A, Clinical and molecular teratology. 106(10):814-830
Cvjetkovic, N., Maili, L., Weymouth, K.S., Hashmi, S.S., Mulliken, J.B., Topczewski, J., Letra, A., Yuan, Q., Blanton, S.H., Swindell, E.C., Hecht, J.T. (2015) Regulatory variant in FZD6 gene contributes to nonsyndromic cleft lip and palate in an African-American family. Molecular Genetics and Genomic Medicine. 3:440-51
Jackson, H.W., Prakash, D., Litaker, M., Ferreira, T., Jezewski, P.A. (2015) Zebrafish Wnt9b Patterns the First Pharyngeal Arch into D-I-V Domains and Promotes Anterior-Medial Outgrowth. American Journal of Molecular Biology. 5(3):57-83
Leslie, E.J., Taub, M.A., Liu, H., Steinberg, K.M., Koboldt, D.C., Zhang, Q., Carlson, J.C., Hetmanski, J.B., Wang, H., Larson, D.E., Fulton, R.S., Kousa, Y.A., Fakhouri, W.D., Naji, A., Ruczinski, I., Begum, F., Parker, M.M., Busch, T., Standley, J., Rigdon, J., Hecht, J.T., Scott, A.F., Wehby, G.L., Christensen, K., Czeizel, A.E., Deleyiannis, F.W., Schutte, B.C., Wilson, R.K., Cornell, R.A., Lidral, A.C., Weinstock, G.M., Beaty, T.H., Marazita, M.L., Murray, J.C. (2015) Identification of functional variants for cleft lip with or without cleft palate in or near PAX7, FGFR2, and NOG by targeted sequencing of GWAS loci. American journal of human genetics. 96:397-411
Wu, D., Mandal, S., Choi, A., Anderson, A., Prochazkova, M., Perry, H., Gil-da-Silva-Lopes, V.L., Lao, R., Wan, E., Tang, P.L., Kwok, P.Y., Klein, O., Zhuan, B., Slavotinek, A.M. (2015) DLX4 is Associated With Orofacial Clefting and Abnormal Jaw Development. Human molecular genetics. 24(15):4340-52
Gfrerer, L., Shubinets, V., Hoyos, T., Kong, Y., Nguyen, C., Pietschmann, P., Morton, C.C., Maas, R.L., Liao, E.C. (2014) Functional Analysis of SPECC1L in Craniofacial Development and Oblique Facial Cleft Pathogenesis. Plastic and reconstructive surgery. 134:748-759
Yuan, Q., Chiquet, B.T., Devault, L., Warman, M.L., Nakamura, Y., Swindell, E.C., and Hecht, J.T. (2012) Craniofacial abnormalities result from knock down of nonsyndromic clefting gene, crispld2, in zebrafish. Genesis (New York, N.Y. : 2000). 50(12):871-881
Your Input Welcome
We welcome your input and comments. Please use this form to report issues or recommend updates to the information in ZFIN. We appreciate as much detail as possible and references as appropriate. We will review your comments promptly.
Please check the highlighted fields and try again.
Thank you for submitting comments. Your input has been emailed to ZFIN curators who may contact you if additional information is required.
Oops. Something went wrong. Please try again later.