Heaphy S, Dingwall C, Ernberg I, Gait M J, Green S M, Karn J, Lowe A D, Singh M, Skinner M A
MRC Laboratory of Molecular Biology, Cambridge, England.
Cell. 1990 Feb 23;60(4):685-93. doi: 10.1016/0092-8674(90)90671-z.
HIV-1 Rev protein, purified from E. coli, binds specifically to an RNA transcript containing the 223 nucleotide long Rev response element (RRE) sequence. Rev binds to RRE in vitro with an apparent dissociation constant of 1 to 3 nM as determined by filter binding, gel mobility shift assays, or an immunoprecipitation assay using a monoclonal antibody specific for the Rev C-terminus. Antisense RRE sequences are bound by Rev with a 20-fold lower affinity than wild-type RRE sequences. The Rev-RRE complex forms even in the presence of a 10,000-fold molar excess of 16S rRNA, whereas formation of the low affinity antisense RRE-Rev complex is efficiently blocked by addition of excess 16S rRNA. A approximately 33 nucleotide fragment is protected from ribonuclease T1 digestion by the binding of Rev to RRE RNA, suggesting that Rev binds with high affinity to only a restricted region of the RRE. This protected fragment is unable to rebind Rev protein but has been mapped to a 71 nucleotide long Rev binding domain sequence that overlaps the protected fragment.
从大肠杆菌中纯化得到的HIV-1 Rev蛋白,能特异性结合包含223个核苷酸长的Rev反应元件(RRE)序列的RNA转录本。通过滤膜结合、凝胶迁移率变动分析或使用针对Rev C端的单克隆抗体进行的免疫沉淀分析确定,Rev在体外与RRE结合的表观解离常数为1至3 nM。反义RRE序列与Rev的结合亲和力比野生型RRE序列低20倍。即使存在10000倍摩尔过量的16S rRNA,Rev-RRE复合物仍能形成,而通过添加过量的16S rRNA可有效阻断低亲和力反义RRE-Rev复合物的形成。Rev与RRE RNA的结合可保护约33个核苷酸的片段不被核糖核酸酶T1消化,这表明Rev仅与RRE的一个受限区域以高亲和力结合。这个受保护的片段无法重新结合Rev蛋白,但已被定位到一个71个核苷酸长的Rev结合结构域序列,该序列与受保护片段重叠。
