Abstract
Gitelman syndrome (GS) is caused by SLC12A3 biallelic variants. A previous study showed that large rearrangements (LRGs) of SLC12A3 accounted for the low sensitivity of genetic testing. However, a systematic screening for LRGs in Chinese GS patients is lacking. Massively parallel sequencing (MPS) and multiplex ligation-dependent probe amplification (MLPA) were performed to sequence the genomic DNA of patients with clinically diagnosed GS. Of 165 index cases, MPS identified 151 cases with two or more affected alleles and 14 cases with one variant allele. LRGs were detected by MLPA in 20 out of 27 cases, including 15 cases with suspected LRGs by MPS. Among these 20 cases with LRGs, the results of MPS and MLPA were identical in only 8 cases. Additional LRGs in 6 cases were detected by MLPA alone. In 6 cases, E4_E6del was identified by MPS, while E4_E5del and Intron6del were identified by MLPA. Among the 102 distinct variants, 30 are novel. LRGs were found in 20 cases (12.1%). LRGs were found in 12.1% of our Chinese GS patients cohort. We show that MPS and MLPA are two complementary techniques with the ability to improve the diagnostic yield of GS.
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