论文信息 - pEF-BOS, a powerful mammalian expression vector.

pEF-BOS, a powerful mammalian expression vector.

Polypeptide chain elongation factor l a (EF-la) is an eukaryotic counterpart of E. coli EF-Tu which promotes the GTP-dependent binding of an aminoacyl-tRNA to ribosomes. EF-la is one of the most abundant proteins in eukaryotic cells, and expressed in almost all kinds of mammalian cells. Recently, we have isolated human chromosomal gene coding for EF-la, and shown that the promoter of EF-la chromosomal gene very efficiently stimulates the in vitro transcription (1). In this report, we have constructed a powerful mammalian expression vector, pEF-BOS, using the promoter of human EF-la chromosomal gene. As shown in Fig. 1, pEF-BOS carries the SV40 replication origin (311 bp of EcoRH G fragment), the promoter region of human EF-la chromosomal gene (1.2 kb), the stuffer fragment (450 bp) from CDM8 vector (2) and poly(A) adenylation signal from human G-CSF cDNA (700 bp EcoSll ~ EcoRl DNA fragment) (3) in HindUL-EcoRl site of pUC119. The promoter region of EF-la gene is from nucleotide position 373 to 1561 (1) which includes 203 bp 5' flanking region, 33 bp first exon, 943 bp first intron and 10 bp of the part of the second exon located at 20 bp upstream of the ATG initiation codon. The size of pEFBOS is 5.8 kb, and the cDNA to be expressed can be inserted at BstXl site using BstXl adapter, or Xbal site using Xbal linker. Human G-CSF cDNA (4) was inserted into BstXl site of pEFBOS or CDM8, or into BamhU site of pKCR vector containing SV40 early promoter (5). As shown in Table 1, when these plasmids were transfected into COS cells by DEAEdextran/chloroquine method, the construct in pEF-BOS has directed the synthesis of human G-CSF about 20 times more efficiently than the construct in CDM8, and 50 ~ 200 times more efficiently than the construct in pKCR. In addition, when E. coli chloramphenicol acetyltransferase (CAT) gene was inserted into pEF-BOS, the CAT activities observed with pEF-BOS-CAT were 1.5 ~ 50 times higher than that of pSV2-CAT or pRSV-CAT after transfection into various cell lines including murine L929, human HeLa, CHU-2 and simian COS cells (Table 2). The pEFBOS vector, therefore, will be used to produce a large amount of growth factors and proteins in mammalian cells, to express a high level of anti-sense RNA. Furthermore, the pEF-BOS-CAT will be an ideal positive control for CAT assay in various cell types.

S. Nagata | S. Nagata | S. Mizushima | Seiichi Mizushima

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[3] S. Nagata,et al. Molecular cloning and expression of cDNA for human granulocyte colony-stimulating factor , 1986, Nature.

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