Mutation analysis of potassium channel genes KCNQ1 and KCNH2 in patients with long QT syndrome
Objective To determine mutations of two common potassium channel subunit genes KCNQ1,KCNH2 causing long QT syndrome (LQTS) in the Chinese.Methods Thirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTSgenes, KCNQ1 and KCNH2, by sequencing.Results Two novel KCNQ1 mutations,...
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| Published in | Chinese medical journal Vol. 116; no. 9; pp. 1333 - 1335 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
China
Department of Cardiology, the People's Hospital of Peking University, Beijing 100044, China%Department of Cardiology, Tongren Hospital, Beijing 100730, China%Department of Cardiology, Jiuxianqiao Hospital, Beijing 100016, China%Human Genome Center, Institute of Genetic/Genomics and Bioinformatic Institute, Chinese Academic of Sciences Beijing 101300, China%Central Laboratory of the First Hospital of Peking University, Beijing 100034, China%Center for Molecular Genetics, Department of Molecular Cardiology, Lerner Research Institute, and Center for Cardiovascular Genetics, Department of Cardiovascular Medicine, The Cleveland Clinic Foundation, Cleveland, Ohio 44195, USA
01.09.2003
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0366-6999 2542-5641 |
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| Abstract | Objective To determine mutations of two common potassium channel subunit genes KCNQ1,KCNH2 causing long QT syndrome (LQTS) in the Chinese.Methods Thirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTSgenes, KCNQ1 and KCNH2, by sequencing.Results Two novel KCNQ1 mutations, S277L in the S5 domain and G306V in the channel pore, andtwo novel KCNH2 mutations, L413P in the transmembrane domain S1 and L559H in thetransmembrane domain S5 were identified. The triggering factors for cardiac events developed in thesemutation carriers included physical exercise and excitation. Mutation L413P in KCNH2 was associatedwith the notched T wave on ECGs. Mutation L559H in KCNH2 was associated with the typical bifid Twave on ECGs. Mutation S277L in KCNQ1 was associated with a high-amplitude T wave and G306Vwas associated with a low-amplitude T wave. Two likely polymorphisms, IVS11 + 18C >T in KCNQ1and L520V in KCNH2 were also identified in two LQTS patients.Conclusions The mutation rates for both KCNQ1 (6. 4% ) and KCNH2 (6.4%) are lower in the Chinese population than those from North America or Europe. |
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| AbstractList | R54; Objective To determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese.Methods Thirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTS genes, KCNQ1 and KCNH2, by sequencing.Results Two novel KCNQ1 mutations, S277L in the S5 domain and G306V in the channel pore, and two novel KCNH2 mutations, L413P in the transmembrane domain S1 and L559H in the transmembrane domain S5 were identified. The triggering factors for cardiac events developed in these mutation carriers included physical exercise and excitation. Mutation L413P in KCNH2 was associated with the notched T wave on ECGs. Mutation L559H in KCNH2 was associated with the typical bifid T wave on ECGs. Mutation S277L in KCNQ1 was associated with a high-amplitude T wave and G306V was associated with a low-amplitude T wave. Two likely polymorphisms, IVS11+18C>T in KCNQ1 and L520V in KCNH2 were also identified in two LQTS patients.Conclusions The mutation rates for both KCNQ1 (6.4%) and KCNH2 (6.4%) are lower in the Chinese population than those from North America or Europe. To determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese.OBJECTIVETo determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese.Thirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTS genes, KCNQ1 and KCNH2, by sequencing.METHODSThirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTS genes, KCNQ1 and KCNH2, by sequencing.Two novel KCNQ1 mutations, S277L in the S5 domain and G306V in the channel pore, and two novel KCNH2 mutations, L413P in the transmembrane domain S1 and L559H in the transmembrane domain S5 were identified. The triggering factors for cardiac events developed in these mutation carriers included physical exercise and excitation. Mutation L413P in KCNH2 was associated with the notched T wave on ECGs. Mutation L559H in KCNH2 was associated with the typical bifid T wave on ECGs. Mutation S277L in KCNQ1 was associated with a high-amplitude T wave and G306V was associated with a low-amplitude T wave. Two likely polymorphisms, IVS11 + 18C > T in KCNQ1 and L520V in KCNH2 were also identified in two LQTS patients.RESULTSTwo novel KCNQ1 mutations, S277L in the S5 domain and G306V in the channel pore, and two novel KCNH2 mutations, L413P in the transmembrane domain S1 and L559H in the transmembrane domain S5 were identified. The triggering factors for cardiac events developed in these mutation carriers included physical exercise and excitation. Mutation L413P in KCNH2 was associated with the notched T wave on ECGs. Mutation L559H in KCNH2 was associated with the typical bifid T wave on ECGs. Mutation S277L in KCNQ1 was associated with a high-amplitude T wave and G306V was associated with a low-amplitude T wave. Two likely polymorphisms, IVS11 + 18C > T in KCNQ1 and L520V in KCNH2 were also identified in two LQTS patients.The mutation rates for both KCNQ1 (6.4%) and KCNH2 (6.4%) are lower in the Chinese population than those from North America or Europe.CONCLUSIONSThe mutation rates for both KCNQ1 (6.4%) and KCNH2 (6.4%) are lower in the Chinese population than those from North America or Europe. To determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese. Thirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTS genes, KCNQ1 and KCNH2, by sequencing. Two novel KCNQ1 mutations, S277L in the S5 domain and G306V in the channel pore, and two novel KCNH2 mutations, L413P in the transmembrane domain S1 and L559H in the transmembrane domain S5 were identified. The triggering factors for cardiac events developed in these mutation carriers included physical exercise and excitation. Mutation L413P in KCNH2 was associated with the notched T wave on ECGs. Mutation L559H in KCNH2 was associated with the typical bifid T wave on ECGs. Mutation S277L in KCNQ1 was associated with a high-amplitude T wave and G306V was associated with a low-amplitude T wave. Two likely polymorphisms, IVS11 + 18C > T in KCNQ1 and L520V in KCNH2 were also identified in two LQTS patients. The mutation rates for both KCNQ1 (6.4%) and KCNH2 (6.4%) are lower in the Chinese population than those from North America or Europe. Objective To determine mutations of two common potassium channel subunit genes KCNQ1,KCNH2 causing long QT syndrome (LQTS) in the Chinese.Methods Thirty-one Chinese LQTS pedigrees were characterized for mutations in the two LQTSgenes, KCNQ1 and KCNH2, by sequencing.Results Two novel KCNQ1 mutations, S277L in the S5 domain and G306V in the channel pore, andtwo novel KCNH2 mutations, L413P in the transmembrane domain S1 and L559H in thetransmembrane domain S5 were identified. The triggering factors for cardiac events developed in thesemutation carriers included physical exercise and excitation. Mutation L413P in KCNH2 was associatedwith the notched T wave on ECGs. Mutation L559H in KCNH2 was associated with the typical bifid Twave on ECGs. Mutation S277L in KCNQ1 was associated with a high-amplitude T wave and G306Vwas associated with a low-amplitude T wave. Two likely polymorphisms, IVS11 + 18C >T in KCNQ1and L520V in KCNH2 were also identified in two LQTS patients.Conclusions The mutation rates for both KCNQ1 (6. 4% ) and KCNH2 (6.4%) are lower in the Chinese population than those from North America or Europe. |
| Author | 刘文玲 胡大一 李翠兰 李萍 李运田 李志明 李蕾 秦绪光 董玮 戚豫 陈胜寒 王擎 |
| AuthorAffiliation | DepartmentofCardiology,thePeople'sHospitalofPekingUniversity,Beijing100044,China DepartmentofCardiology,TongrenHospital,Beijing100730,China DepartmentofCardiology,JiuxianqiaoHospital,Beijing100016,China HumanC,enomeCenter,InstituteofC,enetic/C,enomicsandBioinformaticInstitute,ChineseAcademicofSciencesBeijing101300,China CentralLaboratoryoftheFirstHospitalofPekingUniversity,Beijing100034,China CenterforMolecularGenetics,DepartmentofMolecularCardiology,LernerResearchInstitute,andCenterforCardiovascularGenetics,DepartmentofCardiovascularMedicine,TheClevelandClinicFoundation,Cleveland,Ohio44195,USA |
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| Keywords | mutation KCNH2 gene long QT syndrome KCNQ1 gene |
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| Publisher | Department of Cardiology, the People's Hospital of Peking University, Beijing 100044, China%Department of Cardiology, Tongren Hospital, Beijing 100730, China%Department of Cardiology, Jiuxianqiao Hospital, Beijing 100016, China%Human Genome Center, Institute of Genetic/Genomics and Bioinformatic Institute, Chinese Academic of Sciences Beijing 101300, China%Central Laboratory of the First Hospital of Peking University, Beijing 100034, China%Center for Molecular Genetics, Department of Molecular Cardiology, Lerner Research Institute, and Center for Cardiovascular Genetics, Department of Cardiovascular Medicine, The Cleveland Clinic Foundation, Cleveland, Ohio 44195, USA |
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| Snippet | Objective To determine mutations of two common potassium channel subunit genes KCNQ1,KCNH2 causing long QT syndrome (LQTS) in the Chinese.Methods Thirty-one... To determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese. Thirty-one Chinese LQTS... To determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese.OBJECTIVETo determine... R54; Objective To determine mutations of two common potassium channel subunit genes KCNQ1, KCNH2 causing long QT syndrome (LQTS) in the Chinese.Methods... |
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| SubjectTerms | Asian Continental Ancestry Group Cation Transport Proteins China DNA-Binding Proteins ERG1 Potassium Channel Ether-A-Go-Go Potassium Channels Female Humans KCNH2基因 KCNQ Potassium Channels KCNQ1 Potassium Channel KCNQ1基因 Long QT Syndrome - genetics Male Mutation Potassium Channels - genetics Potassium Channels, Voltage-Gated Trans-Activators Transcriptional Regulator ERG 钾离子通道 长QT间期综合征 |
| Title | Mutation analysis of potassium channel genes KCNQ1 and KCNH2 in patients with long QT syndrome |
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