A gene for nonsyndromic mental retardation maps to chromosome 3p25-pter

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A gene for nonsyndromic mental retardation maps to chromosome 3p25-pter

J. J. Higgins, MD, D. R. Rosen, PhD, J. M. Loveless, MS, J. C. Clyman, PhD and M. J. Grau, PsyD

From the Laboratories of Clinical Neurogenetics (Dr. Higgins and J.M. Loveless) and Neuromuscular Genetics (Dr. Rosen), Wadsworth Center, New York State Department of Health; and the Neurogenetics Clinic (Drs. Higgins and Clyman) and Department of Psychology (Dr. Grau), Center for the Disabled, Albany, NY.

Address correspondence and reprint requests to Dr. Joseph J. Higgins, Laboratory of Clinical Neurogenetics, Wadsworth Center, New York State Department of Health, P.O. Box 509, Albany, NY 12201-0509; e-mail: jhiggins{at}wadsworth.org

OBJECTIVE: To establish genetic linkage between polymorphicmicrosatellite loci and a disease locus responsible for an autosomalrecessive type of nonsyndromic mental retardation (MR).

BACKGROUND: Although MR is the most common developmental disabilityin the United States, the etiologies of most nonsyndromic casesare not known.

METHODS: A genealogic database provided information to reconstructthe relationships between 32 individuals from five nuclear familiesin a single pedigree with 10 affected individuals with nonsyndromicMR. To find a MR disease locus in this population, we performeda genome-wide search using genetic loci spaced at 10- to 20-cMintervals. Pairwise linkage analysis, multipoint linkage analysis,and haplotype reconstruction were used to localize the diseasegene.

RESULTS: Genetic linkage between a MR disease locus and locusD3S3050 on chromosome 3p25-pter was established with a Z_max= 9.18 at ${theta}$ = 0.00. Fine mapping this region delimited a 13.47-cMcandidate interval defined by key recombinants at loci D3S3525and D3S1304. Multipoint linkage analysis refined the criticalregion to a 6.71-cM interval flanked by loci D3S3525 and D3S1560.Evidence that a gene for MR resides in this location is supportedby previous breakpoint deletion mapping studies performed inthe chromosome 3p- syndrome.

CONCLUSIONS: These results suggest that a gene on the subtelomericregion of chromosome 3p contributes to general intelligence.The genes for the cell adhesion L1-like molecule (CALL), theinositol triphosphate receptor (ITPR1), and the AD neuronalthread protein (AD7c-NTP) are leading positional candidatesbecause of their role in brain development, neuronal signaling,and structure.

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