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
140-143
,共4页
高超%吴丽%耿香菊%宋丽佳%罗强
高超%吳麗%耿香菊%宋麗佳%囉彊
고초%오려%경향국%송려가%라강
锁骨颅骨发育不全%RUNX2基因%基因突变
鎖骨顱骨髮育不全%RUNX2基因%基因突變
쇄골로골발육불전%RUNX2기인%기인돌변
cleidocranial dysplasia%RUNX 2 gene%gene mutation
目的 探讨RUNX2基因突变在锁骨颅骨发育不全病因研究中的意义及两个中国家族性锁骨颅骨发育不全家系发病的分子机制.方法 提取收集到的2个锁骨颅骨发育不全家系中4例患者和4名家系健康成员、102名无关正常对照外周血基因组DNA,应用PCR扩增产物双向直接测序方法 检测RUNX2基因第1~7外显子及相邻侧翼区的DNA序列,测序结果 与RUNX2基因正常序列对比分析.对发现的突变位点用酶切方法 证实.结果 测序结果 发现一家系中两例父子患者的RUNX2基因第1外显子发生错义突变c.346T>A(W116R),该错义突变通过Bsr Ⅰ限制性内切酶对PCR扩增产物行酶切分析得到进一步确认.另一家系中两例患者的RUNX2基因第3外显子发生无义突变c.610A>T(K204X).在两个家系中的正常家系成员和无关正常对照RUNX2基因DNA序列中没有发现上述突变.结论 通过RUNX2基因,检测在中国人群中发现两个RUNX2基因新致病突变,扩展了遗传性锁骨颅骨发育不全的基因突变谱,对阐明该病发病机制及其基因诊断和遗传咨询有重要意义.
目的 探討RUNX2基因突變在鎖骨顱骨髮育不全病因研究中的意義及兩箇中國傢族性鎖骨顱骨髮育不全傢繫髮病的分子機製.方法 提取收集到的2箇鎖骨顱骨髮育不全傢繫中4例患者和4名傢繫健康成員、102名無關正常對照外週血基因組DNA,應用PCR擴增產物雙嚮直接測序方法 檢測RUNX2基因第1~7外顯子及相鄰側翼區的DNA序列,測序結果 與RUNX2基因正常序列對比分析.對髮現的突變位點用酶切方法 證實.結果 測序結果 髮現一傢繫中兩例父子患者的RUNX2基因第1外顯子髮生錯義突變c.346T>A(W116R),該錯義突變通過Bsr Ⅰ限製性內切酶對PCR擴增產物行酶切分析得到進一步確認.另一傢繫中兩例患者的RUNX2基因第3外顯子髮生無義突變c.610A>T(K204X).在兩箇傢繫中的正常傢繫成員和無關正常對照RUNX2基因DNA序列中沒有髮現上述突變.結論 通過RUNX2基因,檢測在中國人群中髮現兩箇RUNX2基因新緻病突變,擴展瞭遺傳性鎖骨顱骨髮育不全的基因突變譜,對闡明該病髮病機製及其基因診斷和遺傳咨詢有重要意義.
목적 탐토RUNX2기인돌변재쇄골로골발육불전병인연구중적의의급량개중국가족성쇄골로골발육불전가계발병적분자궤제.방법 제취수집도적2개쇄골로골발육불전가계중4례환자화4명가계건강성원、102명무관정상대조외주혈기인조DNA,응용PCR확증산물쌍향직접측서방법 검측RUNX2기인제1~7외현자급상린측익구적DNA서렬,측서결과 여RUNX2기인정상서렬대비분석.대발현적돌변위점용매절방법 증실.결과 측서결과 발현일가계중량례부자환자적RUNX2기인제1외현자발생착의돌변c.346T>A(W116R),해착의돌변통과Bsr Ⅰ한제성내절매대PCR확증산물행매절분석득도진일보학인.령일가계중량례환자적RUNX2기인제3외현자발생무의돌변c.610A>T(K204X).재량개가계중적정상가계성원화무관정상대조RUNX2기인DNA서렬중몰유발현상술돌변.결론 통과RUNX2기인,검측재중국인군중발현량개RUNX2기인신치병돌변,확전료유전성쇄골로골발육불전적기인돌변보,대천명해병발병궤제급기기인진단화유전자순유중요의의.
Objective To identify the RUNX2 gene mutation in two unrelated Chinese families with cleidocranial dysplasia (CCD), and to assess the feasibility of gene diagnosis for patients with CCD. Methods Genomic DNA was isolated from peripheral blood samples of 4 patients and 4 healthy members in the two pedigrees as well as 102 unrelated healthy controls. All 7 coding exons and their flanking intronic sequences of the RUNX2 gene were amplified by PCR, then the PCR products were sequenced bi-directionally. The sequencing results were compared with normal sequences in GenBank to identify the mutation. The mutation was confirmed by RFLP with restriction endonuclease. Results In one family, a novel heterozygous missense mutation c. 346T>A (W116R) in exon 1 of the RUNX2 gene was detected in the two affected individuals, and the mutation was further confirmed with Bsr Ⅰ restriction endonuclease digestion. In the other family, a novel nonsense mutation c. 610A>T (K204X) was identified in the two patients. No above sequence change was found in the 102 healthy controls. Conclusion Two novel RUNX2 mutations were found in two unrelated Chinese families with cleidoeranial dysplasia. The identification of these mutations further extended the mutation spectrum of RUNX2 gene and will facilitate prenatal diagnosis and gene diagnosis of CCD.