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Human ATP-Binding Cassette Transporter 1 (ABC1): Genomic Organization and Identification of the Genetic Defect in the Original Tangier Disease Kindred

by Rust, Stephan , Koch, Christine , Denefle, Patrice , Brewer, H. Bryan , Remaley, Alan T. , Arnould, Isabelle , Duverger, Nicholas , Naudin, Laurent , Prades, Catherine , Assman, Gerd , Santamarina-Fojo, Silvia , Dinger, Maria , Funke, Harald , Chimini, Giovanna , Fredrickson, Donald S. , Dean, Michael , Peterson, Katherine M. , Broccardo, Cyril , Rosier, Marie , Knapper, Cathy

in ABC1 gene / ABC1 protein / Animals / ATP / ATP Binding Cassette Transporter 1 / ATP-Binding Cassette Transporters - genetics / Base Sequence / Biological Sciences / Cholesterol / Cholesterols / Disease / DNA / Exons / Female / Fibroblasts / Genes / Genetic mutation / Genetics / Genomics / Glycoproteins - genetics / HDL lipoproteins / Humans / Introns / Lipids / Lipoproteins / Male / Medical genetics / Mice / Mutation / Pedigree / Proteins / Tangier disease / Tangier Disease - genetics

1999

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Human ATP-Binding Cassette Transporter 1 (ABC1): Genomic Organization and Identification of the Genetic Defect in the Original Tangier Disease Kindred

1999

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Human ATP-Binding Cassette Transporter 1 (ABC1): Genomic Organization and Identification of the Genetic Defect in the Original Tangier Disease Kindred

1999

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Journal Article

Human ATP-Binding Cassette Transporter 1 (ABC1): Genomic Organization and Identification of the Genetic Defect in the Original Tangier Disease Kindred

Rust, Stephan,

Koch, Christine,

Denefle, Patrice,

Brewer, H. Bryan,

Remaley, Alan T.,

Arnould, Isabelle,

Duverger, Nicholas,

Naudin, Laurent,

Prades, Catherine,

Assman, Gerd,

Santamarina-Fojo, Silvia,

Dinger, Maria,

Funke, Harald,

Chimini, Giovanna,

Fredrickson, Donald S.,

Dean, Michael,

Peterson, Katherine M.,

Broccardo, Cyril,

Rosier, Marie,

Knapper, Cathy

1999

Overview

Tangier disease is characterized by low serum high density lipoproteins and a biochemical defect in the cellular efflux of lipids to high density lipoproteins. ABC1, a member of the ATP-binding cassette family, recently has been identified as the defective gene in Tangier disease. We report here the organization of the human ABC1 gene and the identification of a mutation in the ABC1 gene from the original Tangier disease kindred. The organization of the human ABC1 gene is similar to that of the mouse ABC1 gene and other related ABC genes. The ABC1 gene contains 49 exons that range in size from 33 to 249 bp and is over 70 kb in length. Sequence analysis of the ABC1 gene revealed that the proband for Tangier disease was homozygous for a deletion of nucleotides 3283 and 3284 (TC) in exon 22. The deletion results in a frameshift mutation and a premature stop codon starting at nucleotide 3375. The product is predicted to encode a nonfunctional protein of 1,084 aa, which is approximately half the size of the full-length ABC1 protein. The loss of a Mn/1 restriction site, which results from the deletion, was used to establish the genotype of the rest of the kindred. In summary, we report on the genomic organization of the human ABC1 gene and identify a frameshift mutation in the ABC1 gene of the index case of Tangier disease. These results will be useful in the future characterization of the structure and function of the ABC1 gene and the analysis of additional ABC1 mutations in patients with Tangier disease.

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Publisher

National Academy of Sciences of the United States of America,National Acad Sciences,National Academy of Sciences,The National Academy of Sciences

Subject

ABC1 gene

/ ABC1 protein

/ Animals

/ ATP

/ ATP Binding Cassette Transporter 1

/ ATP-Binding Cassette Transporters - genetics

/ Base Sequence