Xiao-Min Cao1, Zhan-Jun Pang, Song Quan. 1. Department of Obstetrics and Gynecology, Nanfang Hospital, Southern Medical University, Guangzhou 510515, China.
Abstract
OBJECTIVE: To detect the transcriptional level of a novel gene F10 associated with the pathogenesis of hydatidiform mole in human cell lines and screen the cell lines with low F10 expression to construct a stable eukaryotic expression system for F10 gene. METHODS: The expression level of F10 mRNA was detected with fluorescent quantitative PCR in A549, 16HBE, Bel7402, HIC, HepG2, 293, PC and MGC cell lines. A549 cell line was transfected with plasmid pRc-CMV2-F10 via electroporation to allow stable F10 expression, and the positive cell clones were selected by G418. The insertion and expression of F10 gene in the A549 cells was analyzed using fluorescent quantitative PCR. RESULTS: F10 mRNA was expressed differentially in these cells lines, and the Bel7402 cells, PC and MGC cells showed the highest F10 mRNA expression, followed by HepG2 and HIC cells and further by 293 cells, and 16HBE and A594 cells had the lowest expression. After transfection, A594 cells showed genomic integration of F10 gene and high expression level of F10 mRNA. CONCLUSION: The pulmonary carcinoma cell line A549 with stable expression of F10 gene has been established, which may facilitate further study of the biological functions of F10 gene.
OBJECTIVE: To detect the transcriptional level of a novel gene F10 associated with the pathogenesis of hydatidiform mole in human cell lines and screen the cell lines with low F10 expression to construct a stable eukaryotic expression system for F10 gene. METHODS: The expression level of F10 mRNA was detected with fluorescent quantitative PCR in A549, 16HBE, Bel7402, HIC, HepG2, 293, PC and MGC cell lines. A549 cell line was transfected with plasmid pRc-CMV2-F10 via electroporation to allow stable F10 expression, and the positive cell clones were selected by G418. The insertion and expression of F10 gene in the A549 cells was analyzed using fluorescent quantitative PCR. RESULTS: F10 mRNA was expressed differentially in these cells lines, and the Bel7402 cells, PC and MGC cells showed the highest F10 mRNA expression, followed by HepG2 and HIC cells and further by 293 cells, and 16HBE and A594 cells had the lowest expression. After transfection, A594 cells showed genomic integration of F10 gene and high expression level of F10 mRNA. CONCLUSION: The pulmonary carcinoma cell line A549 with stable expression of F10 gene has been established, which may facilitate further study of the biological functions of F10 gene.