巴西家族中与常染色体显性先天性白内障相关的CRYAA、CRYGC和CRYGD的突变分析。
Mutation analysis of CRYAA, CRYGC, and CRYGD associated with autosomal dominant congenital cataract in Brazilian families.
作者信息
Santana Alessandro, Waiswol Mauro, Arcieri Enyr Saran, Cabral de Vasconcellos José Paulo, Barbosa de Melo Mônica
机构信息
Cataract Service, Department of Ophthalmology, Faculty of Medical Sciences, Irmandade da Santa Casa de Misericórdia de São Paulo, São Paulo, Brazil.
出版信息
Mol Vis. 2009;15:793-800. Epub 2009 Apr 17.
PURPOSE
Congenital cataracts are one of the most treatable causes of visual impairment and blindness during infancy. Approximately 50% of all congenital cataract cases may have a genetic cause. Once there is an intimate relationship between crystallin genes and lens transparency, they are excellent candidate genes for inherited cataract. The purpose of this study was to investigate mutations in alphaA-crystallin (CRYAA), gammaC-crystallin (CRYGC), and gammaD-crystallin (CRYGD) in Brazilian families with nuclear and lamellar autosomal dominant congenital cataract.
METHODS
Eleven Brazilian families were referred to the Santa Casa de São Paulo Ophthalmology Department. The coding regions and intron/exon boundaries of CRYAA, CRYGC, and CRYGD were amplified by polymerase chain reaction (PCR) and directly sequenced. Mutation screening was performed in the control group by restriction digestion.
RESULTS
Two mutations were observed in different families (Family 4 and Family 10), one is a new mutation (Y56X) in CRYGD and the other a previously reported mutation (R12C) in CRYAA that is correlated with a different phenotype. Genetic analysis revealed previously described polymorphisms in CRYAA (D2D) and CRYGD (Y17Y and R95R). A new polymorphism in CRYGC (S119S) was identified only in Family 1. The mutations as well as the new polymorphism were not observed in the control group.
CONCLUSIONS
In conclusion, we report a novel nonsense mutation (Y56X) in CRYGD and a previously reported missense mutation (R12C) in CRYAA associated with nuclear cataract in Brazilian families. Both tyrosine in amino acid 56 in CRYGD and arginine in amino acid 12 in CRYAA have been highly conserved throughout evolution in different species. A new polymorphism (S119S) in CRYGC was also observed in one family. The analysis of nine families excluded possible mutations in the crystallin genes, suggesting that other genes could be involved with congenital cataract.
目的
先天性白内障是婴儿期视力损害和失明的最可治疗病因之一。所有先天性白内障病例中约50%可能有遗传原因。由于晶状体蛋白基因与晶状体透明度之间存在密切关系,它们是遗传性白内障的极佳候选基因。本研究的目的是调查巴西患有核性和板层状常染色体显性先天性白内障家族中αA-晶状体蛋白(CRYAA)、γC-晶状体蛋白(CRYGC)和γD-晶状体蛋白(CRYGD)的突变情况。
方法
11个巴西家族被转诊至圣保罗圣卡塔琳娜医院眼科。通过聚合酶链反应(PCR)扩增CRYAA、CRYGC和CRYGD的编码区及内含子/外显子边界,并直接进行测序。在对照组中通过限制性酶切进行突变筛查。
结果
在不同家族(家族4和家族10)中观察到两个突变,一个是CRYGD中的新突变(Y56X),另一个是CRYAA中先前报道的与不同表型相关的突变(R12C)。遗传分析揭示了CRYAA(D2D)和CRYGD(Y17Y和R95R)中先前描述的多态性。仅在家族1中鉴定出CRYGC中的一个新多态性(S119S)。在对照组中未观察到这些突变以及新的多态性。
结论
总之,我们报告了巴西家族中CRYGD的一个新的无义突变(Y56X)和CRYAA中先前报道的与核性白内障相关的错义突变(R12C)。CRYGD中第56位氨基酸的酪氨酸和CRYAA中第12位氨基酸的精氨酸在不同物种的整个进化过程中都高度保守。在一个家族中还观察到CRYGC中的一个新多态性(S119S)。对9个家族的分析排除了晶状体蛋白基因中可能的突变,表明其他基因可能与先天性白内障有关。
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