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Human esterase D gene: complete cDNA sequence,genomic structure,and application in the genetic diagnosis of human retinoblastoma
Authors:Lih-Jiuan S. Young  Eva Y. -H. P. Lee  Hoang To  Robert Bookstein  Jin-Yuh Shew  Larry A. Donoso  Theodore Sery  Michael Giblin  Jerry A. Shields  Wen-Hwa Lee
Affiliation:(1) Department of Pathology M-012, Experimental Pathology Program and Center for Molecular Genetics, School of Medicine, University of California at San Diego, 92093 La Jolla, CA, USA;(2) Wills Eye Hospital, Ninth and Walnut Street, 19107 Philadelphia, PA, USA
Abstract:Summary The gene encoding human esterase D (EsD), a member of the nonspecific esterase family, is a useful genetic marker for retinoblastoma (RB) and Wilson's disease. Previously we identified a cDNA clone from this gene and determined its chromosomal location. In this report, we present the complete cDNA sequence of the human EsD gene. A long open reading frame encoded a predicted protein of 282 amino acids with molecular weight of 30 kD. A computer-assisted search of a protein sequence data base revealed homology with two other esterases, acetylcholinesterase of Torpedo and esterase-6 of Drosophila. Homologous region were centered around presumptive active sites, suggesting that the catalytic domains of the esterases are conserved during evolution. Three genomic clones of this gene were also isolated and characterized by restriction mapping. At least ten exons were distributed over a 35-kb (kilobase pair) region; each exon contained an average of 100 basepairs (bp). A polymorphic site for Apa I, located within an intron of the esterase D gene, can be used to identify chromosome 13 carrying defective RB alleles within retinoblastoma families.
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