The expression and construction of engineering Escherichia coli producing humanized AluY RNAs

Chao Liu, Yuehua Zhao, Shuxian Yin, Shufeng Liu, Huanling Zhang, Xiufang Wang, Zhanjun Lv

Exogenous RNAs can specifically up-regulate or down-regulate gene expression after they enter into cells. Alu RNAs are the main constituent of human transcriptome and participate in gene expression regulation. AluY elements belong to a subfamily of Alus and are the youngest Alus. In this paper, we established the technology method of preparing genetically engineered humanized AluY RNAs (AluY RNAs) from Escherichia coli (E. coli) strains. This technology method also can be used to prepare other genetically engineered humanized RNAs that can be used for cytology experiments. Different copies of human AluY elements were inserted into pET-28α plasmid (pET) to construct pET-AluY plasmids that were transformed into BMBL21-DE3 (DE3) E. coli. Isopropylthio-β-D-galactoside (IPTG) induction inhibited transformed bacterial growth after DE3 E. coli were transformed by pET-AluY × 8 plasmid (8 copies of AluYs were inserted into pET); northern blotting was used to detect the amount of AluY RNAs after 2, 4, 6, 8, 10, 12, 14 and 16 h inducing with IPTG. The results showed that the amount of AluY RNAs was the highest at 4 h; 1, 2, 4, 8 or 14 copies of AluY elements were inserted into the pET to construct pET-AluY plasmids that were transformed into DE3 bacteria, the northern blotting results showed that AluY RNAs production amount increased with the increase of AluY copy number; pET-AluY × 8 DE3 bacteria did not produce AluY RNAs without IPTG induction, AluY RNA production kept similar when inducing by 0.1-0.4 mg/ml IPTG induction, however, AluY RNA production slightly decreased if deviating from the above concentration range; pET-AluY × 8 DE3 bacteria were cultured at 34, 37 or 40 °C and the results showed that AluY RNA production was the highest under 37 °C cultivation; pET-AluY × 8 plasmid was transformed into three kinds of BL21 bacteria, including DE3, BMBL21-DE3-pLysS (pLysS) and Trans BL 21 (TransBL), the results showed that AluY RNA production was the highest when using DE3 bacteria. The optimal conditions of producing AluY RNAs were: a kind of host bacteria of DE3, an engineering bacteria concentration of OD600 1.0, an IPTG concentration of 0.2 mg/ml, a culturing temperature of 37 °C and a culturing time of 4 h. Pure AluY RNAs occupied 15.8% of extractive total RNAs and the mean yield of pure AluY RNAs in 100 ml bacteria solution was 0.46 mg.