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常染色体显性遗传性先天性白内障一家系致病基因的初步定位 总被引:2,自引:0,他引:2
目的 初步定位常染色体显性遗传性先天性白内障(ADCC)一家系的致病基因。方法 收集ADCC一家系资料,在已知先天性白内障致病基因和位点附近,选择合适的短串联重复序列多态性标记(STRP),对ADCC一家系进行连锁分析,使用Mlink软件采用对数优势记分法(LOD)计算LOD值。结果 在STRP中,D17S805、D17S1294及D17S1293与致病基因位点连锁的最大LOD值分别为2.03、2.49及2.22(重组率0=0)。结论 该ADCC家系的致病基因初步定位在第17对染色体上;CRYBA1基因为候选基因。(中华眼科杂志,2004,40:824-827) 相似文献
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目的:分析一先天性核型白内障家系的遗传方式及致病基因所在位置。方法:收集一个3代遗传性白内障家系成员的临床资料;提取家系成员外周血DNA,选取62个态性微卫星标记进行连锁分析。应用LINKAGE软件(version 5.2)中的MLINK程序计算两点连锁LOD值,并人工构建家系成员的单体型。结果:确定该家系为一常染色体显性遗传性白内障大家系,在微卫星标记D22S689可获得最大LOD值2.71(θ=0时),单体型提示该家系表型可能与染色体22q11.2-12.1区域连锁。该区域含有CRYBB1,CRYBB2,CRYBB3,CRYBA44个候选基因。结论:本研究先天性核型白内障家系符合常染色体显性遗传规律,其致病基因定位于22q11.2-12.1区域。 相似文献
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目的:对一个4代常染色体显性遗传先天性白内障家系进行致病基因研究。方法:对15例家系成员(8例患者,7例非患者)进行眼部检查,采集静脉血,提取基因组DNA,选取已报道的与常染色体显性遗传性白内障相关的19个位点附近的微卫星标记,PCR扩增后进行基因型分析,用连锁分析进行定位;对提示连锁的标记计算Lod值,并构建单体型;对定位区域内已知候选基因测序。结果:该家系患者表型为绕核性白内障;患者在17q11-12有共享基因型,该位点微卫星标记与致病基因间的两点连锁最大Lod值为2.71,证实该位点与该家系的致病基因连锁;测序未发现CRYBA1/BA3突变。结论:该家系的致病突变不是由于CRYBA1/A3外显子和调控区突变,可能是未被发现基因突变或机制参与该家系的发病。 相似文献
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目的对常染色体显性遗传先天性白内障家系进行致病基因的定位研究。方法对4代11例家系成员(6例患者)进行眼部和全身检查,采集静脉血,提取基因组DNA,选取已报道的与遗传性白内障相关位点附近的微卫星标记,PCR扩增后进行基因型分析,用连锁分析进行排除;没有排除的位点,基因外显子测序。结果 35例家系成员中,追溯调查共有10例患者,其中第1代1例,第2代2例,第3代5例,第4代2例。该家系患者表型为完全性白内障;绝大多数位点,患者没有共享基因型;微卫星标记与致病基因间的2点连锁Lod值〈-2,证实这些位点与该家系的致病基因不连锁;有3个多态性标记(D10S1239、D22S286、D22S926)0〈Lod值≤0.6,Lod值虽然不是〈-2,但在家系患者中没有共享等位基因;测序未发现外显子有突变。结论此家系的致病基因不是已报道位点的致病基因,其致病基因有待进一步研究。 相似文献
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目的: 对中国一个常染色体显性遗传先天性白内障家系(ADCC)的已知候选基因进行筛查以寻找致病位点。方法: 收集一个ADCC家系的临床资料并采集静脉血。在24个已知与ADCC相关基因附近选择微卫星标记,利用Linkage软件Mlink软件包进行连锁分析计算Lod值。结果: 此家系白内障类型为核性白内障,24个候选基因附近50个微卫星Lod值均小于0,微卫星所在区域与此家系致病基因无连锁关系。结论: 此ADCC家系致病基因不是已知的与ADCC相关基因,可能是一个新的致病基因突变导致此家系疾病发生。 相似文献
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常染色体显性遗传白内障一家系基因排除定位研究 总被引:2,自引:1,他引:2
目的 对一个4代常染色体显性遗传性先天性白内障(ADCC)家系进行致病基因的定位。方法 对家系所有成员进行眼部检查。选取位于1、2、3、10、11、12、13、16、17、21及22号染色体上已知与ADCC相关的14个致病基因附近的微卫星标记物,并进行多重PCR扩增,经ABI3130型遗传分析仪,Genscan 2.1收集数据,Genotyper 2.1进行基因分型,Linkage软件计算两点LOD值。结果 未发现所选微卫星位点与该家系疾病表型共分离,LOD值均为负值。致病基因与已知的ADCC14个候选基因不存在连锁关系。结论 在此家系中存在新的致病基因有待于进一步的研究。 相似文献
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先天性原发性[球震颤是一种遗传性[病,具有遗传异质性,目前已知有X连锁显性遗传、X连锁隐性遗传、常染色体显性遗传、常染色体隐性遗传四种遗传方式。本文报道为常染色体显性遗传家系(河北省固安县),共7例。先证者女10岁出生时即有[球震颤,视力较同龄儿童差,无羞明、流泪、夜盲等症状,发育、智力及身体健康状况正常,10年来视力无明显变化。查:双[视力均为0.2,色觉检查正常,同时视功能正常,融合功能在0~6度范围内,无立体视功能,结膜无充血、水肿,角膜透明,kp(-),前房中深,房闪(-),双瞳孔直径约3mm,等大正圆,对光反射灵敏,晶体、玻璃体无混… 相似文献
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目的进一步确定目前常见的常染色体显性遗传性白内障不同的临床表型,评价不同家系之间和家系内不同个体之间先天性白内障障表型的变异。方法收集东北地区常染色体显性遗传性白内障大家系。所有患病个体经眼科及全身检查,除外眼外其它疾患。结果共收集先天性遗传性白内障大家系六个,203人,其中61人患病。形态学上分别表现为核性、圆盘状、板层、粉尘状。结论常染色体显性遗传性白内障不同基因可有相同的临床表型,在不同家系间表型有不同.同一家系中不同个体间也有不同。这进一步揭示了基因的遗传异质性、变异性。 相似文献
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先天性白内障是由于胚胎期晶状体代谢异常而导致的自身透明度下降的致盲性疾病,遗传因素与疾病的发生、发展有很大的联系.目前研究发现先天性白内障的发生至少与22个基因的变异有关,其中以常染色体显性遗传为主,涉及的基因包括晶状体蛋白基因(CRY)、缝隙连接通道蛋白基因(GJA)、膜蛋白基因(MIP)、细胞骨架蛋白基因(BFSP)和转录调节因子基因等.本文对近几年来关于常染色体显性遗传先天性白内障致病基因方面的研究进行综述. 相似文献
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目的 探讨先天性粉尘状白内障一家系的基因突变定位.方法 回顾性研究.对一先天性白内障家系成员(共32人,其巾患者15人)散瞳后采用裂隙灯显微镜观察晶状体,并取外周血提取DNA样品.选取常染色体上微卫星标记物,通过聚合酶链反应(PCR)进行扩增后,进行基因扫描.利用GeneMapper软件进行PCR扩增产物片段大小和单体型分析.分别通过Linkage 5.1和GeneHunter软件进行两点法和多点法对数优势记分(LOD)值计算.对候选基因通过测序进行基因序列分析.结果 家系成员中的白内障患者晶状体环胎儿核可见散在的类似于蚁卵的短棒状混浊.在不同患者间以及同一患者的不同眼别存在晶状体混浊程度和形态的差异.两点法计算LOD值,在重组率(θ)为0时,微卫星位点D20S186、D230S163、D20S915、D20S152、D20S98、D20S904、D20S875、D20S112、D20S1140、D20S432均获得正值,其中在D20S904获得最大LOD值6.02.通过单体型构建,发现微卫星位点D20S163在Ⅳ7患者发生交换,而D20S912在Ⅱ3患者发生交换.基因序列分析未发现BFSP1、PLCB4基因突变.结论 该家系突变基因位于常染色体20p12.1-p11.23上微卫星位点D20S186和D20S912间5.47厘摩范围内. 相似文献
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目的 初步定位一个显性遗传性先天性核性白内障家系的致病基因.方法 在已知与先天性白内障相关的致病基因附近选择合适的微卫星标记,基因组PCR扩增后进行基因分型,由LINKAGE软件处理,对该家系进行连锁分析.结果 在22q的D22S258、D22S315、D22S1163显示最大LOD值2.11(重组率θ=0).单倍型分析提示致病基因位于D22S1174~D22S270大约18.5 Mbp的遗传距离.结论 该家系的致病基因定位于22q11.2~22q13,该范围内的CRYBB1、CRYBB2、CRYBB3、CRYBA4为其可能致病基因. 相似文献
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Objective To identify the gene mutation in a four-generation Chinese family with autosomal dominant congenital cataract associated with microcornea. Methods Experimental research.Twelve members in this family (including six affected and six unaffected individuals) were enrolled into this study. They underwent full ophthalmological and clinical examinations to rule out any concomitant disorders.Blood samples were collected and genomic DNA was extracted. Microsatellite markers near the reported loci,which are associated with congenital cataract and microcornea were selected and amplified from DNA samples using polymerase chain reaction. Linkage analysis was performed. The exons and exon/intron junction of candidate gene in the related chromosome were sequenced. The product of the first exon was digested by ApaL Ⅰ restriction enzyme to certify the mutation. Results The phenotype studied in this family was nuclear cataract accompanied with microcornea. At markers D21S1885 and D21S1890 near the locus 21q22. 3, the affected members had the same allele, but the unaffected did not. The Lod scores were 2. 11in both markers, indicating that this locus were linked to the congenital cataract in this family. DNA sequencing of candidate gene CRYAA showed a heterozygous mutation c. 34C > T in exon 1, which led to condon 12 in peptide chain encoding arginine substituted by cysteine. ApaL Ⅰ enzyme digestion certified that all of the affected members had the same mutation c. 34C >T, but the unaffected and normal individuals did not. Conclusion Mutation (p. R12C) of CRYAA is the genetic change that causes the occurrence of congenital cataract with microcornea in this family. 相似文献
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Objective To identify the gene mutation in a four-generation Chinese family with autosomal dominant congenital cataract associated with microcornea. Methods Experimental research.Twelve members in this family (including six affected and six unaffected individuals) were enrolled into this study. They underwent full ophthalmological and clinical examinations to rule out any concomitant disorders.Blood samples were collected and genomic DNA was extracted. Microsatellite markers near the reported loci,which are associated with congenital cataract and microcornea were selected and amplified from DNA samples using polymerase chain reaction. Linkage analysis was performed. The exons and exon/intron junction of candidate gene in the related chromosome were sequenced. The product of the first exon was digested by ApaL Ⅰ restriction enzyme to certify the mutation. Results The phenotype studied in this family was nuclear cataract accompanied with microcornea. At markers D21S1885 and D21S1890 near the locus 21q22. 3, the affected members had the same allele, but the unaffected did not. The Lod scores were 2. 11in both markers, indicating that this locus were linked to the congenital cataract in this family. DNA sequencing of candidate gene CRYAA showed a heterozygous mutation c. 34C > T in exon 1, which led to condon 12 in peptide chain encoding arginine substituted by cysteine. ApaL Ⅰ enzyme digestion certified that all of the affected members had the same mutation c. 34C >T, but the unaffected and normal individuals did not. Conclusion Mutation (p. R12C) of CRYAA is the genetic change that causes the occurrence of congenital cataract with microcornea in this family. 相似文献
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目的 研究一个4代常染色体显性遗传先天性核性白内障伴小角膜家系的致病基因.方法 实验研究.对12例家系成员(6例患者,6例非患者)进行眼部检查并采集静脉血,提取基因组DNA.在已知的与先天性白内障伴小角膜相关致病基因附近选择微卫星标记,进行聚合酶链反应扩增-变性聚丙烯酰胺凝胶电泳,并进行基因型分析和连锁分析.对连锁区域内候选基因的外显子、外显子和内含子交界区进行测序.限制性内切酶ApaL Ⅰ法在全部家系成员和正常人群中验证突变.结果 该家系患者表型为先天性核性白内障伴小角膜;在染色体21q22.3区域的D21S1885和D21S1890两个标记,家系患者均有共享基因型,并且两点连锁分析Lod值为2.11,提示该位点与家系致病基因连锁;对此区域内候选基因CRYAA测序发现cDNA序列第34位碱基存在C>T杂合突变(c.34C>T),导致其编码肽链第12位精氨酸变为半胱氨酸(p.R12C).ApaL Ⅰ酶切验证家系患者均携带c.34C>T突变,家系中及对照正常个体均不携带此突变.结论 CRYAA的p.R12C突变可能是该先天性白内障伴小角膜家系发病的遗传基础.Abstract: Objective To identify the gene mutation in a four-generation Chinese family with autosomal dominant congenital cataract associated with microcornea. Methods Experimental research.Twelve members in this family (including six affected and six unaffected individuals) were enrolled into this study. They underwent full ophthalmological and clinical examinations to rule out any concomitant disorders.Blood samples were collected and genomic DNA was extracted. Microsatellite markers near the reported loci,which are associated with congenital cataract and microcornea were selected and amplified from DNA samples using polymerase chain reaction. Linkage analysis was performed. The exons and exon/intron junction of candidate gene in the related chromosome were sequenced. The product of the first exon was digested by ApaL Ⅰ restriction enzyme to certify the mutation. Results The phenotype studied in this family was nuclear cataract accompanied with microcornea. At markers D21S1885 and D21S1890 near the locus 21q22. 3, the affected members had the same allele, but the unaffected did not. The Lod scores were 2. 11in both markers, indicating that this locus were linked to the congenital cataract in this family. DNA sequencing of candidate gene CRYAA showed a heterozygous mutation c. 34C > T in exon 1, which led to condon 12 in peptide chain encoding arginine substituted by cysteine. ApaL Ⅰ enzyme digestion certified that all of the affected members had the same mutation c. 34C >T, but the unaffected and normal individuals did not. Conclusion Mutation (p. R12C) of CRYAA is the genetic change that causes the occurrence of congenital cataract with microcornea in this family. 相似文献
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目的对1个四代常染色体显性视网膜色素变性(autosomal dominant retinitis pigmentosa,ADRP)家系在包含已知ADRP致病基因的全部9条染色体上进行基因连锁定位。方法对家系中的所有患者进行眼科及电生理检查。在家系中对第1、3、6、7、8、11、14、17、19号染色体进行基因扫描、基因型分析及连锁分析。结果在全部9条染色体范围内未发现微卫星位点与该家系疾病表型共分离,最大lod score小于-2。结论此家系中排除了目前已知的所有ADRP位点,此家系中应存在新的ADRP连锁位点位于上述9条染色体之外。 相似文献