APPLICATION OF GENETIC DEAFNESS GENE CHIP FOR DETECTION OF GENE MUTATION OF DEAFNESS IN PREGNANT WOMEN 被引量：8

APPLICATION OF GENETIC DEAFNESS GENE CHIP FOR DETECTION OF GENE MUTATION OF DEAFNESS IN PREGNANT WOMEN

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摘要 Objective The study is to identify the carrier rate of common deafness mutation in Chinese pregnant women via detecting deafness gene mutations with gene chip. Methods The pregnant women in obstetric clinic without hearing impairment and hearing disorders family history were selected. The informed consent was signed. Peripheral blood was taken to extract genom- ic DNA. Application of genetic deafness gene chip for detecting 9 mutational hot spot of the most common 4 Chinese deafness genes, namely GJB2 （35delG, 176del16bp, 235delC, 299delAT）, GJB3 （C538T） ,SLC26A4 （ IVS72A〉G, A2168G） and mito- chondrial DNA 12S rRNA （A1555G, C1494T） . Further genetic testing were provided to the spouses and newborns of the screened carriers. Results Peripheral blood of 430 pregnant women were detected, detection of deafness gene mutation carri- ers in 24 cases（4.2%）, including 13 cases of the GJB2 heterozygous mutation, 3 cases of SLC26A4 heterozygous mutation, 1 cases of GJB3 heterozygous mutation, and 1 case of mitochondrial 12S rRNA mutation. 18 spouses and 17 newborns took further genetic tests, and 6 newborns inherited the mutation from their mother. Conclusion The common deafness genes muta- tion has a high carrier rate in pregnant women group, 235delC and IVS7-2A〉G heterozygous mutations are common. Objective The study is to identify the carrier rate of common deafness mutation in Chinese pregnant women via detecting deafness gene mutations with gene chip. Methods The pregnant women in obstetric clinic without hearing impairment and hearing disorders family history were selected. The informed consent was signed. Peripheral blood was taken to extract genom- ic DNA. Application of genetic deafness gene chip for detecting 9 mutational hot spot of the most common 4 Chinese deafness genes, namely GJB2 （35delG, 176del16bp, 235delC, 299delAT）, GJB3 （C538T） ,SLC26A4 （ IVS72A〉G, A2168G） and mito- chondrial DNA 12S rRNA （A1555G, C1494T） . Further genetic testing were provided to the spouses and newborns of the screened carriers. Results Peripheral blood of 430 pregnant women were detected, detection of deafness gene mutation carri- ers in 24 cases（4.2%）, including 13 cases of the GJB2 heterozygous mutation, 3 cases of SLC26A4 heterozygous mutation, 1 cases of GJB3 heterozygous mutation, and 1 case of mitochondrial 12S rRNA mutation. 18 spouses and 17 newborns took further genetic tests, and 6 newborns inherited the mutation from their mother. Conclusion The common deafness genes muta- tion has a high carrier rate in pregnant women group, 235delC and IVS7-2A〉G heterozygous mutations are common.

作者 CHANG Liang ZHONG Su ZHAO Nan LIU Ping ZHAO Yangyu QIAO Jie

机构地区 Department of Obstetrics and Gynecology Key Laboratory of Assisted Reproduction Beijing Key Laboratory of Reproductive Endocrinology and Assisted Reproductive Technology

出处《Journal of Otology》 2014年第2期97-100,共4页 中华耳科学杂志（英文版）

关键词 Gene chip Hereditary deafness Carrier rate Mutation detection Gene chip, Hereditary deafness, Carrier rate, Mutation detection

分类号 R764.43 [医药卫生—耳鼻咽喉科]

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1Wang QJ, Zhao YL, Rao SQ, Guo YF, He Y, Lan L, Yang WY, Zheng QY, Ruben RJ, Han DY, Shen Y. Newborn hearing concurrent gene screening can improve care for hearing loss: a study on 14,913 Chinese newborns. Int J Pediatr Otorhinolaryn?gol. 2011 Apr; 75(4):535-42.
2Smith RJI, Bale JF Jr, White KR. Sensorineural hearing loss in children. Lancet. 2005 Mar 5-11;365(9462):879-90.
3Chen Y, Tudi M, Sun J, He C, Lu HL, Shang Q, Jiang D, Kuyaxi P, Hu B, Zhang H. Genetic mutations in non-syndromic deafness patients of Uyghur and Han Chinese ethnicities in Xin?jiang, China: a comparative study, J Transl Med. 2011 Sep 14; 9-154.
4Qu C, Sun X, Shi Y, Gong A, Liang S, Zhao M, Chen Y, Li?ang F.Microarray-based mutation detection of pediatric sporadic nonsyndromic hearing loss in China, Int J Pediatr Otorhinolaryn?gol. 2012 Feb;76(2):235-9.
5Li CX, Pan Q, Guo YG, Li Y, Gao HF, Zhang D, Hu H, Xing WL, Mitchelson K, Xia K, Dai P, Cheng J. Construction of a multiplex allele-specific PCR-based universal array (ASPUA) and its application to hearing loss screening. Hum Mutat. 2008 Feb;29(2):306-14.
6P. Kushalnagar, G. Mathur, C.J. Moreland, D.l Napoli, W. Osterling, C. Padden, et a1.Infants and children with hearing loss need early language access.J. Clin. Ethics. J Clin Ethics. 2010 Summer;21 (2): 143-54.
7Yang T, Wei X, Chai Y, Li L, Wu H. Genetic etiology study of the non-syndromic deafness in Chinese Hans by targeted next-generation sequencing. Orphanet J Rare Dis. 2013 Jun 14; 8-85.
8in A, Liu C, Zhang Y, Wu J, Mai M, Ding H, Yang J, Zhang X. The carrier rate and mutation spectrum of genes asso?ciated with hearing loss in South China hearing female popula?tion of childbearing age. BMC Med Genet. 2013 May 29;14-57.
9Dai P, Yu F, Han B, Liu X, Wang G, Li Q, Yuan Y, Liu X, Huang D, Kang D,Zhang X, Yuan H, Yao K, Hao J, He J, He Y, Wang Y, Ye Q, Yu Y, Lin H, Liu L,Deng W, Zhu X, You Y, Cui J, Hou N, Xu X, Zhang J, Tang L, Song R, Lin Y,Sun S, Zhang R, Wu H, Ma Y, Zhu S, Wu BL, Han D, Wong LJ. GJB2 mutation spectrum in 2,063 Chinese patients with nonsyndromic hearing impairment. J Transl Med. 2009 Apr 14;7-26.
10Yin A, Liu C, Zhang Y, Wu J, Mai M, Ding H, Yang J, Zhang X. Genetic counseling and prenatal diagnosis for heredi?tary hearing loss in high-risk families. Int J Pediatr Otorhinolar?yngol. 2014 Aug;78(8):1356-9.

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1ZHENG Jing,GONG Sha-sha,TANG Xiao-wen,ZHU Yi,GUAN Min-xin.HUMAN MITOCHONDRIAL tRNA MUTATIONS IN MATERNALLY INHERITED DEAFNESS[J].Journal of Otology,2013,8(1):44-50. 被引量：2
2Lu Lu,Yang Gao,Miao Xu,Ru-Cun Ge,Lin Lu.Gene expression profiles associated with osteoblasts differentiated from bone marrow stromal cells[J].Asian Pacific Journal of Tropical Medicine,2014,7(5):344-351. 被引量：1
3周钧,钱万红,李越希,陶开华,王勇,张兆松.日本血吸虫检测基因芯片的研制及初步应用[J].江苏医药,2004,30(6):455-456. 被引量：3
4邹丰才,吴绍强,李明伟,朱兴全.表达谱基因芯片技术及其在兽医学上的应用[J].中国人兽共患病杂志,2005,21(4):346-349. 被引量：4
5戴朴,刘新,于飞,朱庆文,袁永一,杨淑芝,孙勍,袁慧军,杨伟炎,黄德亮,韩东一.18个省市聋校学生非综合征性聋病分子流行病学研究(Ⅰ)-GJB2 235delC和线粒体DNA 12SrRNA A1555G突变筛查报告[J].中华耳科学杂志,2006,4(1):1-5. 被引量：167
6朱来华,梁成珠,陆承平,吴华,杨元杰,马丰忠,王树峰,于红光.基因芯片技术检测5种马病毒[J].农业生物技术学报,2006,14(2):203-207. 被引量：11
7韩冰,戴朴,王国建,康东洋,张昕,袁永一,朱庆文,金政策,李梅,翟所强,黄德亮,韩东一.相同表型不同基因型耳聋夫妇家庭的遗传咨询与指导[J].中华耳鼻咽喉头颈外科杂志,2007,42(7):499-503. 被引量：20
8王建东,郭建宏,杨春生,刘在新.基因芯片技术及口蹄疫病毒基因芯片研究进展[J].动物医学进展,2007,28(B08):37-40. 被引量：16
9Baner M K, Baxi S, Clavijo A, et al. Microarray-based detec- tion and typing of foot-and-mouth disease virus [J].Vet J, 2006, 172(3): 73-81.
10Baner J, Gyarmati P, Yaeoub A, et al. Microarray-based mo- lecular detection of foot-and-mouth disease, vesicular stomatitis and swine vesicular disease viruses, using padlock probes [J].J Virol Methods, 2007, 143(2): 200-206.

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2Ligang Jiang,Qiuhui Chen,Ying Zhang,Xinyu Hu,Jia Fan,Lifeng Liu,Rui Guo,Yajuan Sun,Yizhi Zhang,Guohua Hu.PARK1 gene mutation of autosomal dominant Parkinson's disease family[J].Neural Regeneration Research,2011,6(5):330-334.
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6Jian-Zhi Wang.Alzheimer's disease: from molecule to clinic[J].Neuroscience Bulletin,2014,30(2):169-171. 被引量：1
7The 6th International Conference on the Epididymis--Networks in Epididymis Basic and Clinic Research[J].Asian Journal of Andrology,2014,16(3).
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9Gene mutation linked to cognition found only in humans[J].Bulletin of the Chinese Academy of Sciences,2007,21(3):139-139.
10Ying Jiang Hong-Bin Liu.Myocyte Enhancer Factor-2A Gene Mutation and Coronary Artery Disease[J].Chinese Medical Journal,2015(19):2688-2691. 被引量：1

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APPLICATION OF GENETIC DEAFNESS GENE CHIP FOR DETECTION OF GENE MUTATION OF DEAFNESS IN PREGNANT WOMEN 被引量：8

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