中华医学遗传学杂志
中華醫學遺傳學雜誌
중화의학유전학잡지
CHINESE JOURNAL OF MEDICAL GENETICS
2010年
2期
132-135
,共4页
史瑾瑜%陈香%任艳%龙洋%田浩明
史瑾瑜%陳香%任豔%龍洋%田浩明
사근유%진향%임염%룡양%전호명
Liddle综合征%上皮细胞钠通道%基因突变
Liddle綜閤徵%上皮細胞鈉通道%基因突變
Liddle종합정%상피세포납통도%기인돌변
Liddle's syndrome%epithelial sodium channel%gene mutation
目的 分析2个Liddle综合征家系上皮细胞钠通道编码基因SCNN1B及SCNN1G的基因突变.方法 收集2个临床诊断为Liddle综合征的家系,抽取先证者及其家系成员外周血基因组DNA,PCR扩增上皮细胞钠通道β亚单位编码基因SCNN1B和γ亚单位编码基因SCNN1G第13外显子,产物直接DNA测序进行基因突变检测.结果 例1 SCNN1B基因第13外显子的扩增片段经双向测序显示第564密码子存在CGA-TGA(R-X)杂合无义突变,其家系成员均未发现这一基因突变;例2 SCNN1G基因第567密码子存在CAG-TAG(Q-X)杂合无义突变,2个家系成员携带此突变基因,这一突变位点尚未在国内外报道过,50名无关正常人中未发现此突变基因.结论 对临床诊断的Liddle综合征患者及其亲属,进行基因突变检测有助于确定诊断及早期筛查出家系中的其他患者.编码人类肾小管上皮细胞钠通道γ亚单位基因SCNN1G第13外显子第567密码子CAG-TAG(Q-X)杂合无义突变可能会导致Liddle综合征.
目的 分析2箇Liddle綜閤徵傢繫上皮細胞鈉通道編碼基因SCNN1B及SCNN1G的基因突變.方法 收集2箇臨床診斷為Liddle綜閤徵的傢繫,抽取先證者及其傢繫成員外週血基因組DNA,PCR擴增上皮細胞鈉通道β亞單位編碼基因SCNN1B和γ亞單位編碼基因SCNN1G第13外顯子,產物直接DNA測序進行基因突變檢測.結果 例1 SCNN1B基因第13外顯子的擴增片段經雙嚮測序顯示第564密碼子存在CGA-TGA(R-X)雜閤無義突變,其傢繫成員均未髮現這一基因突變;例2 SCNN1G基因第567密碼子存在CAG-TAG(Q-X)雜閤無義突變,2箇傢繫成員攜帶此突變基因,這一突變位點尚未在國內外報道過,50名無關正常人中未髮現此突變基因.結論 對臨床診斷的Liddle綜閤徵患者及其親屬,進行基因突變檢測有助于確定診斷及早期篩查齣傢繫中的其他患者.編碼人類腎小管上皮細胞鈉通道γ亞單位基因SCNN1G第13外顯子第567密碼子CAG-TAG(Q-X)雜閤無義突變可能會導緻Liddle綜閤徵.
목적 분석2개Liddle종합정가계상피세포납통도편마기인SCNN1B급SCNN1G적기인돌변.방법 수집2개림상진단위Liddle종합정적가계,추취선증자급기가계성원외주혈기인조DNA,PCR확증상피세포납통도β아단위편마기인SCNN1B화γ아단위편마기인SCNN1G제13외현자,산물직접DNA측서진행기인돌변검측.결과 례1 SCNN1B기인제13외현자적확증편단경쌍향측서현시제564밀마자존재CGA-TGA(R-X)잡합무의돌변,기가계성원균미발현저일기인돌변;례2 SCNN1G기인제567밀마자존재CAG-TAG(Q-X)잡합무의돌변,2개가계성원휴대차돌변기인,저일돌변위점상미재국내외보도과,50명무관정상인중미발현차돌변기인.결론 대림상진단적Liddle종합정환자급기친속,진행기인돌변검측유조우학정진단급조기사사출가계중적기타환자.편마인류신소관상피세포납통도γ아단위기인SCNN1G제13외현자제567밀마자CAG-TAG(Q-X)잡합무의돌변가능회도치Liddle종합정.
Objective To screen the mutation of the β and γ subunits of epithelial sodium channel gene SCNN1 in two families with Liddle's syndrome. Methods Two patients clinically diagnosed as Liddle's syndrome and their family members were enrolled. Peripheral blood samples were collected and total genomic DNA was prepared. Polymerase chain reaction (PCR) was used to amplify the exon 13 of the SCNN1B and SCNN1G gene. PCR products were purified and subjected to direct DNA sequencing. Results A heterozygous nonsense mutation at codon 564 of the SCNN1B gene from CGA(Arg) to stop codon(TGA)was detector in the proband of family 1. More importantly, a novel heterozygous nonsense mutation of CAG (Gln) to stop codon TAG at codon 567 of the SCNN1G gene was detected in the proband and another two members of family 2. Conclusion Screening for specific mutations of the SCNN1 gene in relatives of patients with Liddle's syndrome can be used to identify the previously unrecognized cases within the family.A new nonsense mutation(Q567X) of the SCNN1G gene is likely the cause of Liddle's syndrome in family 2.
