一项针对高度近视的国际协作性基于家系的全基因组连锁扫描。
An international collaborative family-based whole-genome linkage scan for high-grade myopia.
作者信息
Li Yi-Ju, Guggenheim Jeremy A, Bulusu Anuradha, Metlapally Ravikanth, Abbott Diana, Malecaze Francois, Calvas Patrick, Rosenberg Thomas, Paget Sandrine, Creer Rosalind C, Kirov George, Owen Michael J, Zhao Bei, White Tristan, Mackey David A, Young Terri L
机构信息
Center for Human Genetics, Duke University Medical Center, Durham, North Carolina 27710, USA.
出版信息
Invest Ophthalmol Vis Sci. 2009 Jul;50(7):3116-27. doi: 10.1167/iovs.08-2781. Epub 2009 Mar 25.
PURPOSE
Several nonsyndromic high-grade myopia loci have been mapped primarily by microsatellite markers and a limited number of pedigrees. In this study, whole-genome linkage scans were performed for high-grade myopia, using single nucleotide polymorphisms (SNPs) in 254 families from five independent sites.
METHODS
Genomic DNA samples from 1411 subjects were genotyped (Linkage Panel IVb; Illumina, San Diego, CA). Linkage analyses were performed on 1201 samples from 10 Asian, 12 African-American, and 221 Caucasian families, screening for 5744 SNPs after quality-control exclusions. Two disease states defined by sphere (SPH) and spherical equivalence (SE; sphere+cylinder/2) were analyzed. Parametric and nonparametric two-point and multipoint linkage analyses were performed using the FASTLINK, HOMOG, and MERLIN programs. Multiple stratified datasets were examined, including overall, center-specific, and race-specific. Linkage regions were declared suggestive if they had a peak LOD score >or= 1.5.
RESULTS
The MYP1, MYP3, MYP6, MYP11, MYP12, and MYP14 loci were replicated. The novel region q34.11 on chromosome 9 (max NPL= 2.07 at rs913275) was identified. Chromosome 12, region q21.2-24.12 (36.59 cM, MYP3 locus) showed significant linkage (peak HLOD = 3.48) at rs337663 in the overall dataset by SPH and was detected by the Duke, Asian, and Caucasian subsets as well. Potential shared interval was race dependent-a 9.4-cM region (rs163016-rs1520724) driven by the Asian subset and a 13.43-cM region (rs163016-rs1520724) driven by the Caucasian subset.
CONCLUSIONS
The present study is the largest linkage scan to date for familial high-grade myopia. The outcomes will facilitate the identification of genes implicated in myopic refractive error development and ocular growth.
目的
几个非综合征性高度近视基因座主要通过微卫星标记和数量有限的家系进行了定位。在本研究中,利用来自五个独立地点的254个家系中的单核苷酸多态性(SNP),对高度近视进行了全基因组连锁扫描。
方法
对1411名受试者的基因组DNA样本进行基因分型(连锁面板IVb;Illumina,加利福尼亚州圣地亚哥)。对来自10个亚洲、12个非裔美国人以及221个白人家系的1201个样本进行连锁分析,在质量控制排除后筛选5744个SNP。分析了由球镜(SPH)和球镜等效度(SE;球镜+柱镜/2)定义的两种疾病状态。使用FASTLINK、HOMOG和MERLIN程序进行参数化和非参数化两点及多点连锁分析。检查了多个分层数据集,包括总体、中心特异性和种族特异性数据集。如果连锁区域的最大优势对数(LOD)得分≥1.5,则宣布为提示性连锁区域。
结果
MYP1、MYP3、MYP6、MYP11、MYP12和MYP14基因座得到了重复验证。在9号染色体上发现了新的区域q34.11(在rs913275处最大非参数连锁(NPL)=2.07)。在总体数据集中,12号染色体q21.2 - 24.12区域(36.59厘摩,MYP3基因座)在rs337663处通过SPH显示出显著连锁(最大同质性优势对数(HLOD)=3.48),并且在杜克大学、亚洲和白人家系亚组中也检测到了。潜在的共享区间因种族而异——一个由亚洲家系亚组驱动的9.4厘摩区域(rs163016 - rs1520724)和一个由白人家系亚组驱动的13.43厘摩区域(rs163016 - rs1520724)。
结论
本研究是迄今为止针对家族性高度近视进行的最大规模连锁扫描。研究结果将有助于确定与近视性屈光不正发展和眼生长相关的基因。
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