佛山地区孕妇线粒体耳聋基因突变分析

摘要
图/表
参考文献(16)
相关文章 (15)

全文: PDF (0 KB) HTML (32 KB)
输出: BibTeX | EndNote (RIS)

摘要目的分析佛山地区孕妇线粒体耳聋基因突变谱。方法选取2020年1月至2021年4月在佛山市妇幼保健院产科门诊就诊的20 299 名孕妇作为研究对象，采用导流杂交术筛查常见耳聋易感基因，针对线粒体基因12S核糖体RNA 和转运RNA 特定片段设计引物并扩增，采用Sanger 测序法检测线粒体突变位点。结果导流杂交法检测出四个基因11 个突变位点共739 例（3.64%），其中间隙连接β2 蛋白：235delC 杂合突变349 例（47.22%）。Sanger 测序检测出线粒体24 个突变位点共130 例，其中3 种m.12192G＞A、m.7443A＞G、m.7445A＞T 为致病性突变。结论导流杂交术结合Sanger 测序法用于孕妇耳聋基因筛查在耳聋防控中有重要的价值，线粒体基因测序丰富了佛山地区线粒体耳聋基因突变谱，可以提供更好的遗传咨询和生活指导。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	宋春林
	邓璐莎
	陈淑芬
	周成

关键词 ：孕妇, 耳聋基因, 线粒体基因, 测序, 导流杂交, 突变

Abstract：Objective To analyze the mitochondrial deafness gene mutation spectrum of pregnant women in Foshan area. Methods From January 2020 to April 2021, 20 299 pregnant women in the outpatient clinic of Foshan Maternity and Child Health Hospital were selected as the research objects. Flow-through hybridization was used to screen common deafness susceptibility genes, and Sanger sequencing method was used to detect mitochondrial DNA mutations.Results A total of 739 cases (3.64%) of common deafness gene mutations were detected, of which 349 cases (47.22%)were 235delC heterozygous mutations in Gap Junction β2 protein. Sanger sequencing method detected 130 cases of 24 mutation sites in mitochondria, of which m.12192G＞A, m.7443A＞G, m.7445A＞T were pathogenic mutations. Conclusion The flow-through hybridization combined with Sanger sequencing method has important value in the prevention and control of deafness. Mitochondrial gene sequencing has enriched the mutation spectrum in Foshan area, which can provide better genetic counseling and life guidance.

Key words： Pregnant women Deafness genes Mitochondrial genes Sequencing Flow-through hybridization Mutation

基金资助:广东省佛山市自筹经费类科技计划（医学类科技攻关）项目（1920001000342）。

作者简介: 宋春林（1977-），男，江西宁都人，硕士，主任技师，主要从事产前基因诊断工作。

引用本文:

宋春林；邓璐莎；陈淑芬；周成. 佛山地区孕妇线粒体耳聋基因突变分析[J]. 中国当代医药, 2021, 28(30): 23-26.
SONG Chun-lin；DENG Lu-sha；CHEN Shu-fen；ZHOU Cheng. Analysis of mutations of mitochondrial deafness genes in pregnant women in Foshan area. 中国当代医药, 2021, 28(30): 23-26.

链接本文:

http://dangdaiyiyao.com/CN/ 或 http://dangdaiyiyao.com/CN/Y2021/V28/I30/23

[1]	Igumnova V，Veidemane L，Vīksna A，et al.The prevalence of mitochondrial mutations associated with aminoglycosideinduced deafness in ethnic Latvian population：the appraisal of the evidence[J].J Hum Genet，2019，64（3）：199-206.
[2]	李璨，鲁丹，陈晓平，等.216 例非综合征型聋患者四个常见基因位点的突变分析[J].中华医学遗传学杂志，2018，35（5）：630-633.
[3]	文铖，黄丽辉，解舒婷，等.中国部分地区新生儿耳聋基因筛查现况调查[J].临床耳鼻咽喉头颈外科杂志，2020，34（11）：972-977.
[4]	Li H，Qiu J，Zhu J，et al.Gene mutation analysis and genetic counseling for patients with non-syndromic hearing loss in Linyi region[J].Exp Ther Med，2019，17（1）：413-417.
[5]	Du Y，Huang L，Wang X，et al.Clinical data analysis of genotypes and phenotypes of deafness gene mutations in newborns：A retrospective study[J].Biosci Trends，2017，11（4）：460-468.
[6]	Chan DC.Mitochondrial Dynamics and Its Involvement in Disease[J].Annu Rev Pathol，2020，15：235-259.
[7]	Ballana E，Morales E，Rabionet R，et al.Mitochondrial 12S rRNA gene mutations affect RNA secondary structure and lead to variable penetrance in hearing impairment[J].Biochem Biophys Res Commun，2006，341（4）：950-957.
[8]	Zhao H，Li R，Wang Q ，et al.Maternally inherited aminoglycoside-induced and nonsyndromic deafness is associated with the novel C1494T mutation in the mitochondrial 12S rRNA gene in a large Chinese family[J].Am J Hum Genet，2004，74（1）：139-152.
[9]	Zeng X，Liu Z，Wang J，et al.Combined hearing screening and genetic screening of deafness among Hakka newborns in China[J].Int J Pediatr Otorhi，2020，136：110120.
[10]	Wu L，Li R，Chen J，et al.Analysis of mitochondrial A1555G mutation in infants with hearing impairment[J].Exp Ther Med，2018，15（6）：5307-5313.
[11]	孙勍，单希征，马丽涛，等.非综合征性耳聋-家系分子病因学分析[J].中华医学杂志，2009，89（36）：2540-2543.
[12]	Li X，Zhang LS，Fischel-Ghodsian N，et al.Biochemical characterization of the deafness-associated mitochondrial tRNASer（UCN）A7445G mutation in osteosarcoma cell cybrids[J].Biochem Biophys Res Commun，2005，328（2）：491-498.
[13]	Ding Y，Lang J，Zhang J，et al.Screening for deafness-associated mitochondrial 12S rRNA mutations by using a multiplex allele-specific PCR method[J].Biosci Rep，2020，40（5）：BSR20200778.
[14]	Peng W，Zhong Y，Zhao X，et al.Low penetrance of hearing loss in two Chinese families carrying the mitochondrial tRNASer（UCN）mutations[J].Mol Med Rep，2020，22（1）：77-86.
[15]	Peng W，Zhong Y，Zhao X，et al.Mitochondrial DNA：Distribution，Mutations，and Elimination[J].Cells，2019，8（4）：379.
[16]	Ding Y，Teng YS，Zhuo GC，et al.The Mitochondrial tRNAHis G12192A Mutation May Modulate the Clinical Expression of Deafness-Associated tRNAThr G15927A Mutation in a Chinese Pedigree[J].Curr Mol Med，2019，19（2）：136-146.