Title : DNA sequence diversity in a 9.7-kb region of the human lipoprotein lipase gene - Nickerson_1998_Nat.Genet_19_233 |
Author(s) : Nickerson DA , Taylor SL , Weiss KM , Clark AG , Hutchinson RG , Stengard J , Salomaa V , Vartiainen E , Boerwinkle E , Sing CF |
Ref : Nat Genet , 19 :233 , 1998 |
Abstract :
Lipoprotein lipase plays a central role in lipid metabolism and the gene that encodes this enzyme (LPL) is a candidate susceptibility gene for cardiovascular disease. Here we report the complete sequence of a fraction of the LPL gene for 71 individuals (142 chromosomes) from three populations that may have different histories affecting the organization of the sequence variation. Eighty-eight sites in this 9.7 kb vary among individuals from these three populations. Of these, 79 were single nucleotide substitutions and 9 sites involved insertion-deletion variations. The average nucleotide diversity across the region was 0.2% (or on average 1 variable site every 500 bp). At 34 of these sites, the variation was found in only one of the populations, reflecting the differing population and mutational histories. If LPL is a typical human gene, the pattern of sequence variation that exists in introns as well as exons, even for the small number of samples considered here, will present challenges for the identification of sites, or combinations of sites, that influence variation in risk of disease in the population at large. |
PubMedSearch : Nickerson_1998_Nat.Genet_19_233 |
PubMedID: 9662394 |
Gene_locus related to this paper: human-LPL |
Mutation | V370M_human-LPL T379A_human-LPL S474X_human-LPL N318S_human-LPL |
Gene_locus | human-LPL |
Disease | Hyperlipoproteinemia TypeI |
Nickerson DA, Taylor SL, Weiss KM, Clark AG, Hutchinson RG, Stengard J, Salomaa V, Vartiainen E, Boerwinkle E, Sing CF (1998)
DNA sequence diversity in a 9.7-kb region of the human lipoprotein lipase gene
Nat Genet
19 :233
Nickerson DA, Taylor SL, Weiss KM, Clark AG, Hutchinson RG, Stengard J, Salomaa V, Vartiainen E, Boerwinkle E, Sing CF (1998)
Nat Genet
19 :233