Raetz C R
Proc Natl Acad Sci U S A. 1975 Jun;72(6):2274-8. doi: 10.1073/pnas.72.6.2274.
A new method has been developed which permits the rapid screening of E. coli colonies for mutants with defective enzymes of phospholipid metabolism. In this procedure, a disc of filter paper is pressed down on an agar plate containing several hundred colonies of mutagen-treated cells, after which the paper is lifted off. In the process the colonies are transferred to the paper, giving rise to a replica print of the master plate. The few cells from each colony left on the master keep growing in the original pattern. The pattern of colonies is also retained on the filter paper, even after the cells are rendered permeable with lysozyme and EDTA. Colonies treated in this manner remain absorbed to the paper, where they can convert sn-(U-14-C)glycero-3-P to phosphatidyl(U-14-C)glycerophosphate, dependent on added CDP-diglyceride. Unrelated reactions of sn-(U-14-C)glycero-3-P that may obscure the synthesis of phosphatidyl-glycerophosphate are inhibited by the addition of reagents poisoning energy generation. The radioactive phospholipid that forms around each colony on the paper is precipitated in situ with trichloroacetic acid, and unreacted sn-(U-14-C)glycero-3-P is washed away. After autoradiography, the colonies on the filter paper are stained with Coomassie blue. When the autoradiogram is superimposed on the strained paper, mutants are identified as blue colonies lacking a black halo. With this method, 20,000 colonies were screened in several days. Four mutants were identified with low levels of CDP-diglyceride:snglycero-3-P phosphatidyl transferase (EC 2.7.8.5, GLYCEROL-PHOSPHATE PHOSPHATIDYLTRANSFERASE, PHOSPHATIDYLGLYCEROPHOSPHATE SYNTHETASE) IN EXTRACTS. With a similar assay, 10,000 additional colonies were screened for mutants with altered CDP-diglyceride:L-serine O-phosphatidyltransferase (EC 2.7.8.8, phosphatidylserine synthetase), and four strains were found in which the enzyme is thermolabile. The screening technique described here is termed replica printing and should be applicable not only to studies of phospholipid metabolism but also to nucleic acid and protein synthesis.
已开发出一种新方法,可快速筛选大肠杆菌菌落,以找出磷脂代谢酶有缺陷的突变体。在此过程中,将一片滤纸压在含有数百个经诱变处理细胞菌落的琼脂平板上,之后将滤纸掀起。在此过程中,菌落被转移到滤纸上,形成母板的复制印记。留在母板上的每个菌落的少数细胞继续按原来的模式生长。即使细胞用溶菌酶和乙二胺四乙酸处理后变得通透,菌落的模式也会保留在滤纸上。以这种方式处理的菌落仍吸附在滤纸上,在添加CDP - 二甘油酯的情况下,它们可以将sn-(U-14-C)甘油-3-磷酸转化为磷脂酰(U-14-C)甘油磷酸。添加毒害能量产生的试剂可抑制可能掩盖磷脂酰甘油磷酸合成的sn-(U-14-C)甘油-3-磷酸的无关反应。滤纸上每个菌落周围形成的放射性磷脂用三氯乙酸原位沉淀,未反应的sn-(U-14-C)甘油-3-磷酸被洗去。放射自显影后,滤纸上的菌落用考马斯亮蓝染色。当放射自显影片与染色后的滤纸叠加时,突变体被鉴定为没有黑色晕圈的蓝色菌落。用这种方法,几天内筛选了20,000个菌落。在提取物中鉴定出四个CDP - 二甘油酯:sn-甘油-3-磷酸磷脂酰转移酶(EC 2.7.8.5,甘油磷酸磷脂酰转移酶,磷脂酰甘油磷酸合成酶)水平较低的突变体。用类似的测定方法,又筛选了10,000个菌落以寻找CDP - 二甘油酯:L-丝氨酸O-磷脂酰转移酶(EC 2.7.8.8,磷脂酰丝氨酸合成酶)改变的突变体,发现了四个该酶热不稳定的菌株。这里描述的筛选技术称为复制印记,不仅应适用于磷脂代谢研究,也应适用于核酸和蛋白质合成研究。
