Human PRRX1 and PRRX2 genes: cloning, expression, genomic localization, and exclusion as disease genes for Nager syndrome

In this study, we extend our examination of the function of the Prrx1 (a.k.a Mhox, Prx1, K-2, and Pmx1) as well as Prrx2 (a.k.a. S8 and Prx2) genes by characterizing the expression of the human orthologs and their potential for causing specific human malformations. The expression pattern of PRRX2 an...

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Published in:Mammalian genome 2000-11, Vol.11 (11), p.1000-1005
Main Authors: Norris, R A, Scott, K K, Moore, C S, Stetten, G, Brown, C R, Jabs, E W, Wulfsberg, E A, Yu, J, Kern, M J
Format: Article
Language:English
Subjects:
Abnormalities, Multiple - genetics
Alleles
Amino Acid Sequence
Animals
Chromosome Mapping
Chromosomes, Human, Pair 9
Cloning, Molecular
Disease
Gene Expression Regulation, Developmental
Genes
Homeodomain Proteins - genetics
Humans
K-2 gene
Mandibulofacial Dysostosis - genetics
Medical research
Mhox gene
Mice
Miller Fisher Syndrome - genetics
Miller's Syndrome
Molecular Sequence Data
Mutation
Nager Acrofacial Dysostosis
Pmx1 gene
PRRX1 gene
PRRX2 gene
Prx1 gene
Prx2 gene
Rodents
S8 gene
Sequence Homology, Amino Acid
Syndrome
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container_issue 11
container_start_page 1000
container_title Mammalian genome
container_volume 11
creator Norris, R A
Scott, K K
Moore, C S
Stetten, G
Brown, C R
Jabs, E W
Wulfsberg, E A
Yu, J
Kern, M J
description In this study, we extend our examination of the function of the Prrx1 (a.k.a Mhox, Prx1, K-2, and Pmx1) as well as Prrx2 (a.k.a. S8 and Prx2) genes by characterizing the expression of the human orthologs and their potential for causing specific human malformations. The expression pattern of PRRX2 and its close relative, PRRX1, were analyzed in human tissue by RT-PCR. Although the expression of these human genes is similar to their mouse orthologs, there are notable differences in expression. PRRX2 was detected in the human kidney and lung, whereas in mice and chickens neither of these tissues has been reported to express Prrx2. For PRRX1 the expression pattern was quite similar to other vertebrates, but the ratio of the two isoforms was reversed. To begin the search for the gene-disease connection, both genes were mapped to human chromosomes by FISH. The PRRX1 locus maps to 1q23, whereas the PRRX2 locus maps to 9q34.1. This localization, along with the recently described phenotypes of the gene-targeted Prrx1, Prrx2 and double mutant mice, enabled us to search the human disease databases for similar malformations. This examination suggested that mutations at the PRRX1 and/or PRRX2 loci could result in Nager Acrofacial Dysostosis (NAFD) syndrome. We obtained DNA samples from eight patients with NAFD, as well as two patients with Miller syndrome, and analyzed them for mutations in the PRRX1 and PRRX2 genes. The data excludes mutations in the presumed coding sequences of these genes from causing NAFD.
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This localization, along with the recently described phenotypes of the gene-targeted Prrx1, Prrx2 and double mutant mice, enabled us to search the human disease databases for similar malformations. This examination suggested that mutations at the PRRX1 and/or PRRX2 loci could result in Nager Acrofacial Dysostosis (NAFD) syndrome. We obtained DNA samples from eight patients with NAFD, as well as two patients with Miller syndrome, and analyzed them for mutations in the PRRX1 and PRRX2 genes. 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1432-1777
language eng
recordid cdi_proquest_miscellaneous_72394159
source Springer Link
subjects Abnormalities, Multiple - genetics
Alleles
Amino Acid Sequence
Animals
Chromosome Mapping
Chromosomes, Human, Pair 9
Cloning, Molecular
Disease
Gene Expression Regulation, Developmental
Genes
Homeodomain Proteins - genetics
Humans
K-2 gene
Mandibulofacial Dysostosis - genetics
Medical research
Mhox gene
Mice
Miller Fisher Syndrome - genetics
Miller's Syndrome
Molecular Sequence Data
Mutation
Nager Acrofacial Dysostosis
Pmx1 gene
PRRX1 gene
PRRX2 gene
Prx1 gene
Prx2 gene
Rodents
S8 gene
Sequence Homology, Amino Acid
Syndrome
title Human PRRX1 and PRRX2 genes: cloning, expression, genomic localization, and exclusion as disease genes for Nager syndrome
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