目的:明确1例症状严重杜氏肌营养不良(Duchenne muscular dystrophy，DMD)患者的可能致病基因，为其遗传咨询及临床干预提供依据。方法:应用多重连接探针扩增技术(multiplex ligation-dependent probe amplification，MLPA)对患者n DMD基因进行外显子缺失/重复变异分析，进一步通过外周血G显带、荧光原位杂交(fluorescence n in situ hybridization，FISH)和单核苷酸多态性微阵列(single nucleotide polymorphism array，SNP array)分析患者确切基因变异。n 结果:MLPA结果显示患者n DMD基因第1~79外显子全部缺失，G显带核型为46，XY; FISH检测出X染色体短臂存在缺失。SNP array结果显示染色体Xp21.2p21.1区存在5.8 Mb (29 628 158~35 434 714)片段缺失，内含IL1RAPL、MAGEB1-4、ROB、CXorf2、GM、AP3K7IP、FTHL1、DMD、FAM47A、TMEM47、FAM47B等基因的邻近基因缺失综合征。n 结论:该患者确切致病位点为染色体Xp21.2p21.1区5.8 Mb (29 628 158~35 434 714)片段缺失，对家系成员可以进行携带者筛查及产前诊断，高分辨SNP array技术在发现患者潜在的染色体异常中起着重要作用。“,”Objective:To identify the etiology of a patient with severe symptoms of DMD and to trace its pathogenic gene, so as to provide a basis for genetic counseling and clinical intervention.Methods:Multiple ligation-dependent probe amplification (MLPA) technique was used to analyze exon deletion / repetitive variant of n DMD gene, and further analysis was performed by chromosome G-banding, fluorescence n in situ hybridization (FISH) and SNP array analysis.n Results:The MLPA results of the proband showed that the exon 1-79 of n DMD gene were deleted, the G-banding karyotype of blood sample was 46, XY, and the deletion of the short arm of X chromosome was found by FISH. SNP array results showed that 5.8Mb (29 628 158-35 434 714) deletion occurred in the Xp21.2p21.1 region of X chromosome, and the patient was diagnosed as the contiguous deletion syndrome involving the genes of IL1RAPL, MAGEB1-4, ROB, CXorf2, GM, AP3K7IP, FTHL1, DMD, FAM47A, TMEM47, and FAM47B.n Conclusion:The exact pathogenic site of this family is the deletion of 5.8 Mb (29 628 158-35 434 714) in the Xp21.2p21.1 region of X chromosome, which can be used for prenatal diagnosis. High resolution SNP array technique plays an important role in detecting potential chromosome abnormalities in patients.