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Palatal medial edge epithelium
Known as:
Medial edge epithelium
, Medial edge epithelium of palatal shelf
National Institutes of Health
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Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2016
2016
Constitutively active mutation of ACVR1 in oral epithelium causes submucous cleft palate in mice.
K. Noda
,
Y. Mishina
,
Y. Komatsu
Developmental Biology
2016
Corpus ID: 205745019
Highly Cited
2013
Highly Cited
2013
Smad4-Irf6 genetic interaction and TGFβ-mediated IRF6 signaling cascade are crucial for palatal fusion in mice
J. Iwata
,
A. Suzuki
,
+5 authors
Y. Chai
Development
2013
Corpus ID: 11174844
Cleft palate is one of the most common human birth defects and is associated with multiple genetic and environmental risk factors…
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2012
2012
Overexpression of mouse TTF-2 gene causes cleft palate
T. Meng
,
Jia‐yu Shi
,
+6 authors
B. Shi
Journal of Cellular and Molecular Medicine
2012
Corpus ID: 18903275
In humans, mutations of the gene encoding for thyroid transcription factor‐2 (TTF‐2 or FOXE1) result in Bamforth syndrome…
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2008
2008
Follistatin antagonizes transforming growth factor-beta3-induced epithelial-mesenchymal transition in vitro: implications for murine palatal development supported by microarray analysis.
H. Nogai
,
Mark Rosowski
,
+7 authors
R. Lauster
Differentiation; research in biological diversity
2008
Corpus ID: 8831360
Epithelial-mesenchymal transition (EMT) is involved in normal embryonic development as well as in tumor progression and…
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2008
2008
Alteration of medial-edge epithelium cell adhesion in two Tgf-β3 null mouse strains
E. Martínez-Sanz
,
A. del Río
,
+11 authors
C. Martínez-Álvarez
Differentiation; research in biological diversity
2008
Corpus ID: 10761922
Although palatal shelf adhesion is a crucial event during palate development, little work has been carried out to determine which…
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Highly Cited
2005
Highly Cited
2005
The cellular and molecular etiology of the cleft secondary palate in Fgf10 mutant mice.
Sylvia Alappat
,
Zunyi Zhang
,
+5 authors
Yiping Chen
Developmental Biology
2005
Corpus ID: 24387794
Highly Cited
2003
Highly Cited
2003
TGF‐β3–dependent SMAD2 phosphorylation and inhibition of MEE proliferation during palatal fusion
X. Cui
,
Y. Chai
,
+4 authors
C. Shuler
Developmental Dynamics
2003
Corpus ID: 25779480
Transforming growth factor (TGF) ‐β3 is known to selectively regulate the disappearance of murine medial edge epithelium (MEE…
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Highly Cited
2002
Highly Cited
2002
Rescue of cleft palate in Msx1-deficient mice by transgenic Bmp4 reveals a network of BMP and Shh signaling in the regulation of mammalian palatogenesis.
Zunyi Zhang
,
Yiqiang Song
,
Xiang Zhao
,
Xiaoyun Zhang
,
C. Fermin
,
Yiping Chen
Development
2002
Corpus ID: 16001309
Cleft palate, the most frequent congenital craniofacial birth defects in humans, arises from genetic or environmental…
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Highly Cited
2001
Highly Cited
2001
TGF-beta3-induced palatogenesis requires matrix metalloproteinases.
L. Blavier
,
A. Lazaryev
,
J. Groffen
,
N. Heisterkamp
,
Y. DeClerck
,
V. Kaartinen
Molecular Biology of the Cell
2001
Corpus ID: 23071039
Cleft lip and palate syndromes are among the most common congenital malformations in humans. Mammalian palatogenesis is a complex…
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Highly Cited
1987
Highly Cited
1987
Medial edge epithelium transforms to mesenchyme after embryonic palatal shelves fuse.
James E. Fitchett
,
E. Hay
Developmental Biology
1987
Corpus ID: 19453150
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