Protić-Sabljić M, Whyte D, Fagan J, Howard B H, Gorman C M, Padmanabhan R, Kraemer K H
Mol Cell Biol. 1985 Jul;5(7):1685-93. doi: 10.1128/mcb.5.7.1685-1693.1985.
We wished to determine whether simian virus 40 (SV40)-transformed xeroderma pigmentosum cells, despite their defective DNA repair, were suitable for DNA-mediated gene transfer experiments with linked genes. Expression of a nonselectable gene (cat, coding for chloramphenicol acetyltransferase [CAT]) linked to a selectable gene (gpt, coding for xanthine-guanine phosphoribosyltransferase [XPRT]) in the plasmid pSV2catSVgpt was quantified after transfection of SV40-transformed xeroderma pigmentosum [XP20s(SV40)] and normal human [GM0637(SV40)] fibroblast cell lines. A novel autoradiographic assay with [3H]xanthine incorporation showed 0.5 to 0.7% phenotypic expression of XPRT in both cell lines. Without selection, transient CAT activity was 20 times greater in the GM0637(SV40) than in the XP20s(SV40) cells, and transient XPRT activity was 5 times greater. Both of these transient activities were increased and equalized in both cell lines by transfection with pRSVcat or pRSVgpt. Genotypic transformation to gpt+ occurred at a frequency of 2 X 10(-4) to 4 X 10(-4) in both cell lines with pSV2catSVgpt. After 2 to 3 months in selective medium, stable expression of the (nonselected) cat gene was found in 11 (92%) of 12 gpt-containing clones derived from GM0637(SV40) cells and in 13 (81%) of 16 gpt-containing clones from XP20s(SV40) cells. However, the levels of CAT activity did not correlate with those of XPRT activity, and both of these activities varied more than 100-fold among different clones. Copies (1 to 4) of the gpt gene were integrated in four clones of the GM0637(SV40) cells having an XPRT activity of 1 to 5 nmol/min per mg, but 5 to 80 copies were integrated in four XP20s(SV40) clones with an XPRT activity of 0.8 to 1.8 nmol/min per mg. This study shows that XP20s(SV40) is as suitable for gene transfer experiments as the normal human line GM0637(SV40).
我们希望确定猿猴病毒40(SV40)转化的着色性干皮病细胞,尽管其DNA修复存在缺陷,是否适合用于进行带有连锁基因的DNA介导的基因转移实验。在将质粒pSV2catSVgpt转染到SV40转化的着色性干皮病[XP20s(SV40)]和成纤维细胞系正常人[GM0637(SV40)]后,对与可选择基因(gpt,编码黄嘌呤 - 鸟嘌呤磷酸核糖转移酶[XPRT])连锁的不可选择基因(cat,编码氯霉素乙酰转移酶[CAT])的表达进行了定量分析。一种用[3H]黄嘌呤掺入的新型放射自显影测定法显示,在两种细胞系中XPRT的表型表达为0.5%至0.7%。在无选择的情况下,GM0637(SV40)细胞中的瞬时CAT活性比XP20s(SV40)细胞中的高20倍,瞬时XPRT活性高5倍。通过用pRSVcat或pRSVgpt转染,两种细胞系中的这两种瞬时活性均增加并达到平衡。用pSV2catSVgpt在两种细胞系中,基因型转化为gpt+的频率为2×10(-4)至4×10(-4)。在选择培养基中培养2至3个月后,在源自GM0637(SV40)细胞的12个含gpt克隆中的11个(92%)和源自XP20s(SV40)细胞的16个含gpt克隆中的13个(81%)中发现了(未选择的)cat基因的稳定表达。然而,CAT活性水平与XPRT活性水平不相关,并且在不同克隆中这两种活性的变化超过100倍。在XPRT活性为每毫克1至5纳摩尔/分钟的GM0637(SV40)细胞的四个克隆中整合了1至4个gpt基因拷贝,但在XPRT活性为每毫克0.8至1.8纳摩尔/分钟的四个XP20s(SV40)克隆中整合了5至80个拷贝。这项研究表明,XP20s(SV40)与正常人细胞系GM0637(SV40)一样适合进行基因转移实验。
