大肠杆菌holo-ACP的过表达、分离纯化及长链脂酰ACP的合成

[目的]获得高纯度大肠杆菌holo-ACP和多种长链脂酰ACP,为研究细菌脂肪酸、类脂A和N-酯酰高丝氨酸内脂等物质的合成提供底物.[方法和结果]采用PCR方法扩增得到大肠杆菌酰基载体蛋白基因(acpP)和holo-ACP合成酶基因(acpS).使用载体pBAD24、pBAD34和pET28b分别克隆了acpP和acpS,得到pBAD-ACP、pET-ACP和pET-ACP-ACPS 3个ACP表达质粒和一个AcpS表达质粒pBAD-ACPS.分别用3个ACP表达质粒转化大肠杆菌DH5a和BL21(DE3),构建了DH5αpBAD-ACP、BL21(DE3)/pET-ACP和BL21(DE3)/pET-ACP-ACPS 3种ACP生产菌株.与holo-ACP纯化常用菌株DK574相比,虽然三菌株在诱导时均能过量表达ACP,但是holo-ACP所占比例偏低.为了提高ACP生产菌株holo-ACP的产量,用质粒pBAD-ACPS分别转化上述3种ACP生产菌株,获得了3种携带双质粒的ACP生产菌株.表达结果显示携带pBAD-ACP和pBAD-ACPS双质粒的DH5a菌株比DK574菌株能产生更多的holo-ACP,且纯度也得到提高(纯度达99%).同时使用UNOsphere Q阴离子交换层析从这一菌株培养物中分离纯化到了高纯度的holo-ACP,并以纯化到的holo-ACP和多种长链脂肪酸为底物在哈氏弧菌脂酰ACP合成酶的催化下,合成了多种长链脂酰ACP.[结论]通过研究获得一株holo-ACP高产菌株,并证明在大肠杆菌菌株中,同时表达acpP基因和acpS基因,有利于holo-ACP的产生.

Overexpression and purification of Escherichia coli holo-acyl carrier protein and synthesis of acyl carrier protein

OBJECTIVE: To investigate the mechanism of fatty acids, lipid A and N-acylhomoserine lactones biosynthesis of bacteria by using high quality Escherichia coli holo-ACP and varied length chain acyl-ACPs as substrates. METHODS AND RESULTS: Using PCR technique we amplified the acpP and acpS gene fragments from genomic DNA of E. coli strain MG1655. Ligating these gene fragments with plasmids pBAD24 or pET28b respectively, we obtained 3 expression plasmids of acyl carrier protein: pBAD-ACP, pET-ACP and pET-ACP-ACPS, and one expression plasmid of holo-acyl carrier protein synthase: pBAD-ACPS. Then we constructed 3 acyl carrier protein producer strains: DH5alpha/pBAD-ACP, BL21 (DE3)/pET-ACP and BL21(DE3)/pET-ACP-ACPS by transforming E. coli strains DH5alpha or BL21(DE3)with pBAD-ACP, pET-ACP or pET-ACP-ACPS, respectively. Although these 3 strains could produce more acyl carrier protein under induction than strain DK574, which was used to purify holo-acyl carrier protein in general, the yield of holo-acyl carrier protein of these strains was still lower. In order to increase the yield of holo-acyl carrier protein in these strains, we introduced pBAD-ACPS into these strains. The assay of expressions of new strains was shown the that strain DH5alpha harbored pBAD-ACP and pBAD-ACPS double plasmids produced more holo-acyl carrier protein than strain DK574, and the purity of holo-acyl carrier protein was also increased (up to 99%). Then we purified high quality holo-acyl carrier protein from the culture of the strain DH5alpha harbored pBAD-ACP and pBAD-ACPS by using UNOsphere Q anion-exchange chromatography. Utilizing holo-acyl carrier protein and long chain fatty acids as substrates and under Vibrio harveyi acyl-acyl carrier protein synthetase catalyzing, we synthesized several different acyl-acyl carrier proteins. CONCLUSION: From this study we obtained a high holo-ACP producer strain and demonstrated that co-expressing acpP with acpS, E. coli strains could produce more holo-ACP.