Kumar V, Green S, Staub A, Chambon P
EMBO J. 1986 Sep;5(9):2231-6. doi: 10.1002/j.1460-2075.1986.tb04489.x.
Site-directed mutagenesis was used to prepare a series of human oestrogen receptor (hER) deletion mutants. The ability of these mutant receptors to bind oestradiol, either after being transiently expressed in HeLa cells or produced synthetically in vitro using T7 polymerase coupled with a rabbit reticulocyte lysate translation system, was analysed. The results indicate that a region which is highly conserved (94% amino acid identity) between the human and chicken ERs (region E) contains all of the sequence necessary to bind oestradiol with high affinity. When tight nuclear association of the oestradiol-receptor complex was investigated using the oestradiol-binding mutants of the same series, two regions of the hER sequence were found to be important. One of these regions is completely conserved (100% amino acid identity) between the human and chicken ERs (region C). This region is rich in cysteine and basic amino acids and contains motifs similar to those which have been proposed to be important for DNA binding in other eukaryotic transcriptional regulatory proteins. The other region (region D), which is comparatively poorly conserved (38% amino acid identity), is located between the putative DNA-binding domain (region C) and the oestradiol-binding domain (region E).
采用定点诱变技术制备了一系列人雌激素受体(hER)缺失突变体。分析了这些突变受体在瞬时转染HeLa细胞后或使用T7聚合酶与兔网织红细胞裂解物翻译系统在体外合成后结合雌二醇的能力。结果表明,人与鸡雌激素受体之间高度保守的区域(94%氨基酸同一性,区域E)包含了与雌二醇高亲和力结合所需的所有序列。当使用同一系列的雌二醇结合突变体研究雌二醇-受体复合物的紧密核结合时,发现hER序列的两个区域很重要。其中一个区域在人与鸡雌激素受体之间完全保守(100%氨基酸同一性,区域C)。该区域富含半胱氨酸和碱性氨基酸,并且含有与其他真核转录调节蛋白中对DNA结合很重要的基序相似的基序。另一个区域(区域D)的保守性相对较差(38%氨基酸同一性),位于假定的DNA结合结构域(区域C)和雌二醇结合结构域(区域E)之间。
