Exon sequencing of PAX3 and T (brachyury) in cases with spina bifida

A. J. Agopian; Angela D. Bhalla; Eric Boerwinkle; Richard H. Finnell; Megan L. Grove; James E. Hixson; Lawrence C. Shimmin; Anshuman Sewda; Colin Stuart; Yu Zhong; Huiping Zhu; Laura E. Mitchell

doi:10.1002/bdra.23163

Exon sequencing of PAX3 and T (brachyury) in cases with spina bifida

A. J. Agopian, Angela D. Bhalla, Eric Boerwinkle, Richard H. Finnell, Megan L. Grove, James E. Hixson, Lawrence C. Shimmin, Anshuman Sewda, Colin Stuart, Yu Zhong, Huiping Zhu, Laura E. Mitchell

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

18 Scopus citations

Abstract

BACKGROUND: Based on studies in animals and humans, PAX3 and T (brachyury) are candidate genes for spina bifida. However, neither gene has been definitively identified as a risk factor for this condition. METHODS: Sanger sequencing was used to identify variants in all PAX3 and T exons and promoter regions in 114 spina bifida cases. For known variants, allele frequencies in cases were compared with those from public databases using unadjusted odds ratios. Novel variants were genotyped in parents and assessed for predicted functional impact. RESULTS: We identified common variants in PAX3 (n=2) and T (n=3) for which the allele frequencies in cases were significantly different from those reported in at least one public database. We also identified novel variants in both PAX3 (n=11) and T (n=1) in spina bifida cases. Several of the novel PAX3 variants are predicted to be highly conserved and/or impact gene function or expression. CONCLUSION: These studies provide some evidence that common variants of PAX3 and T are associated with spina bifida. Rare and novel variants in these genes were also identified in affected individuals. However, additional studies will be required to determine whether these variants influence the risk of spina bifida.

Original language	English (US)
Pages (from-to)	597-601
Number of pages	5
Journal	Birth Defects Research Part A - Clinical and Molecular Teratology
Volume	97
Issue number	9
DOIs	https://doi.org/10.1002/bdra.23163
State	Published - Sep 2013
Externally published	Yes

Keywords

Genetic epidemiology
Myelomeningocele
PAX3
Sequencing
Spina bifida
T locus
Word

ASJC Scopus subject areas

Pediatrics, Perinatology, and Child Health
Embryology
Developmental Biology

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10.1002/bdra.23163

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title = "Exon sequencing of PAX3 and T (brachyury) in cases with spina bifida",

abstract = "BACKGROUND: Based on studies in animals and humans, PAX3 and T (brachyury) are candidate genes for spina bifida. However, neither gene has been definitively identified as a risk factor for this condition. METHODS: Sanger sequencing was used to identify variants in all PAX3 and T exons and promoter regions in 114 spina bifida cases. For known variants, allele frequencies in cases were compared with those from public databases using unadjusted odds ratios. Novel variants were genotyped in parents and assessed for predicted functional impact. RESULTS: We identified common variants in PAX3 (n=2) and T (n=3) for which the allele frequencies in cases were significantly different from those reported in at least one public database. We also identified novel variants in both PAX3 (n=11) and T (n=1) in spina bifida cases. Several of the novel PAX3 variants are predicted to be highly conserved and/or impact gene function or expression. CONCLUSION: These studies provide some evidence that common variants of PAX3 and T are associated with spina bifida. Rare and novel variants in these genes were also identified in affected individuals. However, additional studies will be required to determine whether these variants influence the risk of spina bifida.",

keywords = "Genetic epidemiology, Myelomeningocele, PAX3, Sequencing, Spina bifida, T locus, Word",

author = "Agopian, {A. J.} and Bhalla, {Angela D.} and Eric Boerwinkle and Finnell, {Richard H.} and Grove, {Megan L.} and Hixson, {James E.} and Shimmin, {Lawrence C.} and Anshuman Sewda and Colin Stuart and Yu Zhong and Huiping Zhu and Mitchell, {Laura E.}",

year = "2013",

month = sep,

doi = "10.1002/bdra.23163",

language = "English (US)",

volume = "97",

pages = "597--601",

journal = "Birth Defects Research Part A - Clinical and Molecular Teratology",

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number = "9",

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T1 - Exon sequencing of PAX3 and T (brachyury) in cases with spina bifida

AU - Agopian, A. J.

AU - Bhalla, Angela D.

AU - Boerwinkle, Eric

AU - Finnell, Richard H.

AU - Grove, Megan L.

AU - Hixson, James E.

AU - Shimmin, Lawrence C.

AU - Sewda, Anshuman

AU - Stuart, Colin

AU - Zhong, Yu

AU - Zhu, Huiping

AU - Mitchell, Laura E.

PY - 2013/9

Y1 - 2013/9

N2 - BACKGROUND: Based on studies in animals and humans, PAX3 and T (brachyury) are candidate genes for spina bifida. However, neither gene has been definitively identified as a risk factor for this condition. METHODS: Sanger sequencing was used to identify variants in all PAX3 and T exons and promoter regions in 114 spina bifida cases. For known variants, allele frequencies in cases were compared with those from public databases using unadjusted odds ratios. Novel variants were genotyped in parents and assessed for predicted functional impact. RESULTS: We identified common variants in PAX3 (n=2) and T (n=3) for which the allele frequencies in cases were significantly different from those reported in at least one public database. We also identified novel variants in both PAX3 (n=11) and T (n=1) in spina bifida cases. Several of the novel PAX3 variants are predicted to be highly conserved and/or impact gene function or expression. CONCLUSION: These studies provide some evidence that common variants of PAX3 and T are associated with spina bifida. Rare and novel variants in these genes were also identified in affected individuals. However, additional studies will be required to determine whether these variants influence the risk of spina bifida.

AB - BACKGROUND: Based on studies in animals and humans, PAX3 and T (brachyury) are candidate genes for spina bifida. However, neither gene has been definitively identified as a risk factor for this condition. METHODS: Sanger sequencing was used to identify variants in all PAX3 and T exons and promoter regions in 114 spina bifida cases. For known variants, allele frequencies in cases were compared with those from public databases using unadjusted odds ratios. Novel variants were genotyped in parents and assessed for predicted functional impact. RESULTS: We identified common variants in PAX3 (n=2) and T (n=3) for which the allele frequencies in cases were significantly different from those reported in at least one public database. We also identified novel variants in both PAX3 (n=11) and T (n=1) in spina bifida cases. Several of the novel PAX3 variants are predicted to be highly conserved and/or impact gene function or expression. CONCLUSION: These studies provide some evidence that common variants of PAX3 and T are associated with spina bifida. Rare and novel variants in these genes were also identified in affected individuals. However, additional studies will be required to determine whether these variants influence the risk of spina bifida.

KW - Genetic epidemiology

KW - Myelomeningocele

KW - PAX3

KW - Sequencing

KW - Spina bifida

KW - T locus

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Exon sequencing of PAX3 and T (brachyury) in cases with spina bifida

Abstract

Keywords

ASJC Scopus subject areas

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