Genetics and signaling mechanisms of orofacial clefts

Genetics and signaling mechanisms of orofacial clefts

Craniofacial development involves several complex tissue movements including several fusion processes to form the frontonasal and maxillary structures, including the upper lip and palate. Each of these movements are controlled by many different factors that are tightly regulated by several integral...

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Veröffentlicht in:Birth defects research 2020-11, Vol.112 (19), p.1588-1634
Hauptverfasser: Reynolds, Kurt, Zhang, Shuwen, Sun, Bo, Garland, Michael A., Ji, Yu, Zhou, Chengji J.
Format: Artikel
Sprache:eng
Schlagworte:
Animal models
Animals
Bmp/Tgfb signaling
Cleft Lip - genetics
Cleft lip/palate
Cleft Palate - genetics
Craniofacial growth
Fgf signaling
Genetics
human genetics
Humans
Morphogenesis
mouse models
Orofacial clefts
retinoic acid signaling
Risk analysis
Risk factors
Shh signaling
Signal transduction
Signal Transduction - genetics
Signaling
signaling crosstalk
syndromic/non‐syndromic
Wnt signaling
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Zusammenfassung:Craniofacial development involves several complex tissue movements including several fusion processes to form the frontonasal and maxillary structures, including the upper lip and palate. Each of these movements are controlled by many different factors that are tightly regulated by several integral morphogenetic signaling pathways. Subject to both genetic and environmental influences, interruption at nearly any stage can disrupt lip, nasal, or palate fusion and result in a cleft. Here, we discuss many of the genetic risk factors that may contribute to the presentation of orofacial clefts in patients, and several of the key signaling pathways and underlying cellular mechanisms that control lip and palate formation, as identified primarily through investigating equivalent processes in animal models, are examined.
ISSN:2472-1727
2472-1727
DOI:10.1002/bdr2.1754