Analytical & Bioanalytical Techniques

Biography

Biography: Yeun-Jun Chung

Abstract

Copy number variation (CNV) is one of the major components of human genetic variations and it is thought to contribute to inter-individual differences in diverse phenotypes. Several CNVs have been suggested to be associated with systemic lupus erythematosus (SLE) through the target gene approach; however, genome-wide feature of CNVs in the risk of SLE has not well studied. Recently, our group studied the genome-wide CNVs with 964 SLE patients and 711 normal control individuals by whole genome SNP array analysis, and identified three CNVs of RABGAP1L, 10q21.3, and C4 associated with the risk of SLE in Korean Women (Arthritis and Rheumatism 65:1055-63 2013). For the multiplex detection of the 3 CNVs, we adopted a stuffer-free multiplex ligation-dependent probe amplification based on conformation-sensitive capillary electrophoresis, which we developed previously (MLPA-CE-SSCP, Electrophoresis 33, 3052–61 2012). For the MLPA-CE-SSCP based SLE CNV detection system, we also included 3 previously reported CNVs such as CCL3L1, FCGR3B, and EGR2. As a result, all the targets were well separated and the expected CNVs were consistently identified by the SLE MLPA-CE-SSCP system. After validation of the performance of SLE MLPA-CE-SSCP system, we applied the system for 113 SLEs and found that deletion of C4 was the most significantly associated with the risk of SLE. Our results suggest that the SLE MLPA-CE-SSCP system can be useful for predicting the risk of SLE. However, further larger scale study will be required.