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成骨不全(osteogenesis imperfecta,OI)(OIⅠ,MIM#166200;OIⅡ,MIM#166210;OIⅢ,MIM#259420;OIⅣ,MIM#166220)又称脆骨病,是一种全身性结缔组织遗传病,多数为常染色体显性遗传,少数为常染色体隐性遗传,发病率约为1∶10000。临床表现主要包括骨脆性增加、蓝巩膜、牙本质发育不全、听力下降等。90%以上的OI患者具有Ⅰ型胶原基因(COL1A1,COL1A2)突变,尤以COL1A1基因突变为主。Ⅰ型胶原基因突变的位点与OI临床表型有一定的相关性。本文主要就Ⅰ型胶原基因突变与OI的研究进展作一综述。 相似文献
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Classic Ehlers-Danlos syndrome (EDS) is characterized by fragile and hyperextensible skin, atrophic scarring, and joint hypermobility. Mutations in the COL5A1 and the COL5A2 gene encoding the alpha1(V) and the alpha2(V) chains, respectively, of type V collagen have been shown to cause the disorder, but it is unknown what proportion of classic EDS patients carries a mutation in these genes. We studied fibroblast cultures from 48 patients with classic EDS by SDS-PAGE for the presence of type V collagen defects. An abnormal collagen pattern was detected in only 2 out of 48 cell lines, making this a poor method for routine diagnostic evaluation. A total of 42 out of 48 (88%) patients were heterozygous for an expressed polymorphic variant in COL5A1. cDNA from 18 (43%) of them expressed only one COL5A1 allele. In 37 patients, the COL5A1/A2 genes were then analyzed by SSCP and conformation sensitive gel electrophoresis (CSGE). A total of 26 patients that were mutation-negative after SSCP/CSGE screening were reanalyzed by dHPLC. In addition, 11 other patients were analyzed by dHPLC only. In total, 17 mutations leading to a premature stop codon and five structural mutations were identified in the COL5A1 and the COL5A2 genes. In three patients with a positive COL5A1 null-allele test, no causal mutation was found. Overall, in 25 out of 48 patients (52%) with classic EDS, an abnormality in type V collagen was confirmed. Variability in severity of the phenotype was observed, but no significant genotype-phenotype correlations emerged. The relatively low mutation detection rate suggests that other genes are involved in classic EDS. We excluded the COL1A1, COL1A2, and DCN gene as major candidate genes for classic EDS, since no causal mutation in these genes was found in a number of patients who tested negative for COL5A1 and COL5A2. 相似文献
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白莹;孔祥东;刘宁;任淑敏;郭宏湘;赵凯慧;张丽玲 《中华医学遗传学杂志》2017,34(5):705-708
目的 分析4个成骨不全家系致病基因 COL1A1、COL1A2基因致病突变位点,为家系遗传咨询和产前诊断提供依据。 方法 应用二代测序对4个成骨不全家系的先证者 COL1A1、COL1A2基因编码区进行外显子检测,获得变异序列后,针对所检出变异序列经PCR扩增后进行Sanger双向测序,对4个成骨不全家系中4例先证者及其家系成员和200名正常个体的 COL1A1、COL1A2基因序列进行变异验证分析,确定致病突变后,对1个家系中的高危胎儿进行产前诊断。 结果 家系1和2先证者分别携带 COL1A1基因c.760G>A(p.Gly254Arg)、c.608G>T( p.Gly203Val)杂合突变,父母均未携带该突变;家系3先证者和先证者女儿均携带 COL1A1基因c.299-1G>C杂合突变,先证者妻子未携带该突变;产前诊断结果显示家系3胎儿未携带与先证者相同的突变,与B超影像结果一致。家系4先证者携带 COL1A2基因c.1990G>C(p.Gly664Arg)杂合突变,父母均未携带该突变;200名正常个体未检测到上述突变。其中 COL1A1基因c.299-1G>C和 COL1A2基因c.1990G>C(p.Gly664Arg)突变为未报道过的新突变。 结论 COL1A1、COL1A2基因突变是这4个成骨不全家系的致病原因,本研究结果丰富了 COL1A1、COL1A2基因突变谱,为家系的遗传咨询和产前诊断提供了依据。 相似文献
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B.D. Webb T. Brandt L. Liu C. Jalas J. Liao A. Fedick M.D. Linderman G.A. Diaz R. Kornreich H. Trachtman L. Mehta L. Edelmann 《Clinical genetics》2014,86(2):155-160
Alport syndrome is an inherited progressive nephropathy arising from mutations in the type IV collagen genes, COL4A3, COL4A4, and COL4A5. Symptoms also include sensorineural hearing loss and ocular lesions. We determined the molecular basis of Alport syndrome in a non‐consanguineous Ashkenazi Jewish family with multiple affected females using linkage analysis and next generation sequencing. We identified a homozygous COL4A3 mutation, c.40_63del, in affected individuals with mutant alleles inherited from each parent on partially conserved haplotypes. Large‐scale population screening of 2017 unrelated Ashkenazi Jewish samples revealed a carrier frequency of 1 in 183 indicating that COL4A3 c.40_63del is a founder mutation which may be a common cause of Alport syndrome in this population. Additionally, we determined that heterozygous mutation carriers in this family do not meet criteria for a diagnosis of Thin Basement Membrane Nephropathy and concluded that carriers of c.40_63del are not likely to develop benign familial hematuria. 相似文献
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O. Didierjean G. Cancel G. Stevanin A. Durr K. Burk A. Benomar A. Lezin S. Belal M. Abada-Bendid T. Klockgether A. Brice 《Journal of medical genetics》1999,36(5):415-417
Spinocerebellar ataxia type 2 (SCA2) is caused by the expansion of an unstable CAG repeat encoding a polyglutamine tract. Repeats with 32 to 200 CAGs are associated with the disease, whereas normal chromosomes contain 13 to 33 repeats. We tested 220 families of different geographical origins for the SCA2 mutation. Thirty three were positive (15%). Twenty three families with at least two affected subjects were tested for linkage disequilibium (LD) between the SCA2 mutation and three microsatellite markers, two of which (D12S1332-D12S1333) closely flanked the mutation; the other (D12S1672) was intragenic. Many different haplotypes were observed, indicating the occurrence of several ancestral mutations. However, the same haplotype, not observed in controls, was detected in the German, the Serbian, and some of the French families, suggesting a founder effect or recurrent mutations on an at risk haplotype. 相似文献
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Richards AJ Laidlaw M Whittaker J Treacy B Rai H Bearcroft P Baguley DM Poulson A Ang A Scott JD Snead MP 《Human mutation》2006,27(7):696-704
Stickler syndrome is a genetically heterogeneous disorder that affects the ocular, skeletal, and auditory systems. To date three genes, COL2A1, COL11A1, and COL11A2, encoding the heterotypic type II/XI collagen fibrils present in vitreous and cartilage have been shown to have mutations that result in Stickler syndrome. As systemic features in this disorder are variable we have used an ophthalmic examination to differentiate those patients with a membranous vitreous phenotype associated with mutations in COL2A1, from other patients who may have mutations in other genes. Gene amplification and exon sequencing was used to screen 50 families or sporadic cases with this membranous phenotype, for mutations in COL2A1. Mutations were detected in 47 (94%) cases consisting of 166 affected and 78 unaffected individuals. We also demonstrate that the predominantly ocular form of type 1 Stickler syndrome is not confined to mutations in the alternatively spliced exon 2. Using splicing reporter constructs we demonstrate that a mutant GC donor splice site in intron 51 can be spliced normally; this contributed to the predominantly ocular phenotype in the family in which it occurred. 相似文献
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Richard J. Wenstrup Laura W. Lever Charlotte L. Phillips L. Darryl Quarles 《American journal of medical genetics. Part A》1993,45(2):228-232
Although virtually all mutations that result in osteogenesis imperfecta (OI) affect the genes that encode the chains of type I procollagen, the effects of mutations in the COL1A2 gene have received less attention than those in the COL1A1 gene. We have characterized mutations in 4 families that give rise to different OI phenotypes. In three families substitutions of glycine residues by cysteine in the triple helical domain (a single example at position 259 and 2 families in which substitution of glycine at 646 by cysteine) have been identified, and in the fourth a G for A transition at position + 4 in intron 33 led to use of an alternative splice site and inclusion of 6 amino acids (val-gly-arg-ile-leu-phe) between residues 585 and 586 of the normal triple helix. The relation between position of substitution of glycine by cysteine in the COL1A2 gene does not follow the pattern developed in the COL1A1 gene. To determine how COL1A2 mutations produce OI phenotypes, we have produced a full-length mouse cDNA into which we plan to place mutations and examine their effects in stably transfected osteogenic cells and in transgenic animals. 相似文献
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Douglas J. Wilkin Andrew S. Artz Sarah South Ralph S. Lachman David L. Rimoin William R. Wilcox Victor A. McKusick Constantine A. Stratakis Clair A. Francomano Daniel H. Cohn 《American journal of medical genetics. Part A》1999,85(2):105-112
Kniest dysplasia is a moderately severe type II collagenopathy, characterized by short trunk and limbs, kyphoscoliosis, midface hypoplasia, severe myopia, and hearing loss. Mutations in the gene that encodes type II collagen (COL2A1), the predominant protein of cartilage, have been identified in a number of individuals with Kniest dysplasia. All but two of these previously described mutations cause in-frame deletions in type II collagen, either by small deletions in the gene or splice site alterations. Furthermore, all but one of these mutations is located between exons 12 and 24 in the COL2A1 gene. We used heteroduplex analysis to identify sequence anomalies in five individuals with Kniest dysplasia. Sequencing of the index patients' genomic DNA identified four new dominant mutations in COL2A1 that result in Kniest dysplasia: a 21-bp deletion in exon 16, an 18-bp deletion in exon 19, and 4-bp deletions in the splice donor sites of introns 14 and 20. A previously described 28-bp deletion at the COL2A1 exon 12–intron 12 junction, deleting the splice donor site, was identified in the fifth case. The latter three mutations are predicted to result in exon skipping in the mRNA encoded from the mutant allele. These data suggest that Kniest dysplasia results from shorter type II collagen monomers, and support the hypothesis that alteration of a specific COL2A1 domain, which may span from exons 12 to 24, leads to the Kniest dysplasia phenotype. Am. J Med. Genet. 85:105–112, 1999. Published 1999 Wiley-Liss, Inc. 相似文献
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Monica Mottes Antonella Sangalli Pier Franco Pignatti 《American journal of medical genetics. Part A》1993,45(2):217-222
The allele frequencies of 2 new polymorphic markers of collagen type I proalpha 1 (COL1A1) and proalpha 2 (COL1A2) genes were determined in a random sample of chromosomes by polymerase chain reaction. The minor allele frequencies were 0.27 for COL1A1/+88Mn1I, and 0.39 for COL1A2/1446 PvuII RFLPs, respectively. These 2 polymorphisms increased the combined (PIC) values we previously determined in the Italian population with Southern blotting procedures, from 0.71 at the COL1A1 locus to 0.81, and from 0.71 at the COL1A2 locus to 0.88, respectively. With a combination of these markers, we have carried out the segregation analysis of 4 new families in which osteogenesis imperfecta (OI) segregated as a dominant trait. The disease segregated with COL1A1 in 2 OI type I families, and with COL1A2 in one OI type IV family. In one OI type I family the concordant locus was uncertain. This analysis was extended to the 7 dominant OI families we previously reported: in 3 out of 11 pedigrees either locus still could not be excluded, indicating the need for more genetic markers. COL1A1 and COL1A2 haplotype frequencies were compared in normal and OI chromosomes: no preferential association of the disease with a given haplotype was detected. The correlation between affected locus and clinical aspects is discussed. 相似文献
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Allan J. Richards Annie McNinch Howard Martin Kim Oakhill Harjeet Rai Sarah Waller Becky Treacy Joanne Whittaker Sarah Meredith Arabella Poulson Martin P. Snead 《Human mutation》2010,31(6):E1461-E1471
Stickler syndrome is a dominantly inherited disorder affecting the fibrillar type II/XI collagen molecules expressed in vitreous and cartilage. Mutations have been found in COL2A1, COL11A1 and COL11A2. It has a highly variable phenotype that can include midline clefting, hearing loss, premature osteoarthritis, congenital high myopia and blindness through retinal detachment. Although the systemic phenotype is highly variable, the vitreous phenotype has been used successfully to differentiate between patients with mutations in these different genes. Mutations in COL2A1 usually result in a congenital membranous vitreous anomaly. In contrast mutations in COL11A1 result in a different vitreous phenotype where the lamellae have an irregular and beaded appearance. However, it is now apparent that a new sub‐group of COL2A1 mutations is emerging that result in a different phenotype with a hypoplastic vitreous that fills the posterior chamber of the eye, and is either optically empty or has sparse irregular lamellae. Here we characterise a further 89 families with Stickler syndrome or a type II collagenopathy, and correlate the mutations with the vitreous phenotype. We have identified 57 novel mutations including missense changes in both COL2A1 and COL11A1 and have also detected two cases of complete COL2A1 gene deletions using MLPA. ©2010 Wiley‐Liss, Inc. 相似文献
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成骨不全一家系的COL1A1基因突变分析 总被引:3,自引:0,他引:3
目的探讨一个成骨不全家系的COL1A1基因的突变位点及其与临床特征的关系。方法收集一个成骨不全家系的临床资料,采用聚合酶链反应以及直接测序法对家系内成员进行COL1A1基因突变位点检测,同时对50名无血缘关系健康对照者的该位点进行限制性内切酶分析。结果该家系中成骨不全患者均存在COL1A1基因的第2461位点G→A突变(17.821S),但其临床特征不一致。而在家系内非患者及正常对照者中均未发现该突变。结论COL1A1基因突变是中国人群中成骨不全致病原因之一。成骨不全的表型不仅与基因型有关,还与遗传背景有关。 相似文献
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Marfan syndrome: exclusion of genetic linkage to the COL1A2 gene 总被引:11,自引:0,他引:11
Marfan Syndrome is a genetic disorder of the connective tissue. Individuals from one large family with this disorder were genotyped for COL1A2 gene associated RFLPs. Our results demonstrated that the COL1A2 gene, encoding the proa2(I) collagen chain, segregated independently of the phenotype and it is therefore excluded as the mutant locus in this family. 相似文献
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目的对有成骨不全(Osteogenesis Imperfecta,OI)孕史的患者,进行系统B超及COL1A1/COL1A2基因检测,希望建立OI患儿产前诊断方案,为OI患儿进行产前诊断提供技术保障。方法对于有OI孕史的孕妇,进行系统B超监测;根据胎儿股骨、长骨的超声影像学表现,初诊为成骨不全。抽取羊水,采用直接测序法对羊水DNA的COL1A1和COL1A2基因全编码外显子及启动子区域进行突变位点检测。检出的新突变,对孕妇夫妇及家系其他成员直接测序证实。产前诊断标本均需做母血污染鉴定。结果胎儿超声影像学表现为股骨短小,胫腓骨弯曲成角,颅骨变薄且发现多处骨折,考虑OI。STR法鉴定,羊水无母血污染。DNA序列分析结果显示COL1A1基因鉴定出19个SNP位点,没有鉴定出突变位点;COL1A2基因鉴定出13个SNP位点及第36外显子的第2180位置碱基发生错义突变位点(c.2180G>A,p.Gly727Asp)。孕妇在COL1A2基因的第36外显子亦存在错义突变位点(c.2180G>A,p.Gly727Asp),但其临床特征不一致。其他成员均未检测到Gly727Asp突变。结论有OI孕史的孕妇,采取B超和COL1A1/COL1A2基因诊断技术,可以快速、有效对高危胎儿做出确诊,为预防患病胎儿出生提供技术保障。 相似文献
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目的分析6个成骨不全家系的临床表型并明确其致病变异,为遗传咨询及产前诊断提供依据。方法收集6个家系的临床资料以及外周血或引产组织样本,应用二代测序(next generation sequencing,NGS)技术对先证者的全部基因进行检测,用PCR反应扩增检出的变异位点,之后进行Sanger测序。在6个家系的所有成员以及100名健康对照中对检测到的变异位点进行验证。结果家系1的先证者及其女儿携带COL1A1基因c.1976G>C杂合变异,家系2~6的先证者分别携带COL1A2基因c.2224G>A、COL1A1基因c.2533G>A、COL1A2基因c.2845G>A、COL1A1基因c.2532_2540delCGGACCCGC以及COL1A2基因c.1847G>A杂合变异。先证者的双亲均未携带相应变异,在100名健康对照中均未检测到上述变异。结论6个成骨不全家系的致病原因可能均为COL1A1/2基因的变异。新发现的变异丰富了成骨不全症的表现型-基因型数据库,并为这些家系的遗传咨询及产前诊断提供了依据。 相似文献
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侯瑞;李闯;刘彩霞;李欢;李岭;吕远;张志涛;刘萍 《中华医学遗传学杂志》2020,37(05):514-518
目的 分析6个成骨不全家系的临床表型并明确其致病变异,为遗传咨询及产前诊断提供依据。 方法 收集6个家系的临床资料以及外周血或引产组织样本,应用二代测序(next generation sequencing,NGS)技术对先证者的全部基因进行检测,用PCR反应扩增检出的变异位点,之后进行Sanger测序。在6个家系的所有成员以及100名健康对照中对检测到的变异位点进行验证。 结果 家系1的先证者及其女儿携带COL1A1基因c.1976G>C杂合变异,家系2~6的先证者分别携带COL1A2基因c.2224G>A、COL1A1基因c.2533G>A、COL1A2基因c.2845G>A、COL1A1基因c.2532_2540delCGGACCCGC以及COL1A2基因c.1847G>A杂合变异。先证者的双亲均未携带相应变异,在100名健康对照中均未检测到上述变异。 结论 6个成骨不全家系的致病原因可能均为COL1A1/2基因的变异。新发现的变异丰富了成骨不全症的表现型-基因型数据库,并为这些家系的遗传咨询及产前诊断提供了依据。 相似文献
