人U_1和U_2 snRNA基因5''''端区域中SV_(40)T抗原结合位点的作用

利用寡聚核苷酸指导的基因定位突变技术,从人U_1和U_2 snRNA基因5'端删去或取代能与SV_(40)T抗原结合的位点,构成基因的缺失和取代突变体。在HeLa细胞核抽提物体外转录系统中,U_1和U_2缺失及取代突变基因与野生型基因有相同的转录水平,而且RNA的合成都是从帽子位点的上游开始的。这意味着基因这一区域的突变不改变其体外转录性质。在人的HeLa和293细胞及蛙卵母细胞中,U_1和U_2缺失突变基因不被转录,而取代突变基因的转录却又恢复到野生型基因水平。这表明人的U_1和U_2基因在这三种细胞内的转录与SV_(40)T抗原结合位点的核苷酸排列顺序无关,而由于结合位点的缺失所造成的空间距离上的变化才是影响转录的主要因素。     

Nucleotide sequence of the Hind-C fragment of simian virus 40 DNA. Comparison of the 5'-untranslated region of wild-type virus and of some deletion Mutants.

We report here the nucleotide sequence of the wild-type simian virus 40 (strain 776) restriction fragment Hind-C-P1 DNA and of the homologous region of various mutant DNAs which lack part of this fragment. During this work, we detected between EcoRII fragments N and G an additional, 17-base-pair EcoRII fragment, fragment P, which had previously been overlooked. Also, an additional dTpdG dinucleotide at residues L 339--340 was observed by sequence analysis of the DNA minus (E) strand; the presence of this dinucleotide was masked on sequencing patterns of the plus strand due to the persistence (during gel electrophoresis) of some secondary structures in the strand's 5'-terminal region. These nucleotide additions raise the total length of SV40 DNA to 5243 base pairs. The longest tandemly repeated segment in SV40 DNA now extends over 72 base pairs. SV40 deletion mutants dl 893 and dl 894 and SV40 strains Rh 911 and 1801 all lack an identical 72-base-pair-long DNA segment in the Hind-C region. This deletion corresponds precisely to one of the two aforementioned large tandemly repeated sequences. Mutant dl 895 lacks 66 base pairs, 63 of which are part of the former repetition. All these mutants, except dl 895, very probably were generated by an intramolecular, homologous recombination event. The 40-base-pair deletion in mutant dl 1811 includes the major capping site of SV40 late RNA. dl 1812 lacks only three base pairs, which are part of the overlapping HhaI and HpaII restriction sites at position 0.725--0.726.     

SV40 deletion mutants lacking the 21-bp repeated sequences are viable, but have noncomplementable deficiencies.

We have constructed deletion mutants of simian virus 40 (SV40) lacking the two tandemly repeated copies or all three copies of the 21-bp repeated sequence located in the origin region. The mutants were viable, but had lower infectivities compared to the wild type. The mutant lacking two copies of the 21-bp repeat grew fairly well indicating that the one copy of the 21-bp repeat it contains is adequate. The other mutant lacking all the three copies of the 21-bp repeat was also viable but grew poorly. The viability of this mutant suggests that the upstream 72-bp repeated sequence compensates, though only partially, for the absence of the 21-bp repeat. The growth deficiencies of the deletion mutants could not be overcome by complementation with temperature-sensitive helper mutants providing either the early or the late functions of the virus, suggesting that the deficiencies lie in both early and late gene expression and/or in replication.