Mice deficient in the candidate tumor suppressor gene Hic1 exhibit developmental defects of structures affected in the Miller-Dieker syndrome

Mark G. Carter; Margaret A. Johns; Xiaobei Zeng; Li Zhou; M. Christine Zink; Joseph L. Mankowski; David M. Donovan; Stephen B. Baylin

doi:10.1093/hmg/9.3.413

Mice deficient in the candidate tumor suppressor gene Hic1 exhibit developmental defects of structures affected in the Miller-Dieker syndrome

Mark G. Carter, Margaret A. Johns, Xiaobei Zeng, Li Zhou, M. Christine Zink, Joseph L. Mankowski, David M. Donovan, Stephen B. Baylin

School of Medicine

Research output: Contribution to journal › Article › peer-review

103 Scopus citations

Abstract

HIC1 is a candidate tumor suppressor gene which is frequently hypermethylated in human tumors, and its location within the Miller-Dieker syndrome's critical deletion region at chromosome 17p13.3 makes it a candidate gene for involvement in this gene deletion syndrome. To study the function of murine Hic1 in development, we have created Hic1-deficient mice. These animals die perinatally and exhibit varying combinations of gross developmental defects throughout the second half of development, including acrania, exencephaly, cleft palate, limb abnormalities and omphalocele. These findings demonstrate a role for Hic1 in the development of structures affected in the Miller-Dieker syndrome, and provide functional evidence to strengthen its candidacy as a gene involved in this disorder.

Original language	English (US)
Pages (from-to)	413-419
Number of pages	7
Journal	Human molecular genetics
Volume	9
Issue number	3
DOIs	https://doi.org/10.1093/hmg/9.3.413
State	Published - Feb 12 2000

ASJC Scopus subject areas

Molecular Biology
Genetics
Genetics(clinical)

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title = "Mice deficient in the candidate tumor suppressor gene Hic1 exhibit developmental defects of structures affected in the Miller-Dieker syndrome",

abstract = "HIC1 is a candidate tumor suppressor gene which is frequently hypermethylated in human tumors, and its location within the Miller-Dieker syndrome's critical deletion region at chromosome 17p13.3 makes it a candidate gene for involvement in this gene deletion syndrome. To study the function of murine Hic1 in development, we have created Hic1-deficient mice. These animals die perinatally and exhibit varying combinations of gross developmental defects throughout the second half of development, including acrania, exencephaly, cleft palate, limb abnormalities and omphalocele. These findings demonstrate a role for Hic1 in the development of structures affected in the Miller-Dieker syndrome, and provide functional evidence to strengthen its candidacy as a gene involved in this disorder.",

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AU - Carter, Mark G.

AU - Johns, Margaret A.

AU - Zeng, Xiaobei

AU - Zhou, Li

AU - Zink, M. Christine

AU - Mankowski, Joseph L.

AU - Donovan, David M.

AU - Baylin, Stephen B.

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Mice deficient in the candidate tumor suppressor gene Hic1 exhibit developmental defects of structures affected in the Miller-Dieker syndrome

Abstract

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