Ram N, Rao M V, Prabhu L, Nirodi C S, Sultana S, Vatsala P G, Padmanaban G
Department of Biochemistry, Indian Institute of Science, Bangalore.
Arch Biochem Biophys. 1995 Feb 20;317(1):39-45. doi: 10.1006/abbi.1995.1133.
The region -160 to -127 nt of the upstream of CYP2B1/B2 gene has been found to function as a negative cis-acting element on the basis of DNase-I footprint and gel mobility shift assays as well as cell-free transcriptional assays using Bal-31 mutants. A reciprocal relationship in the interaction of the negative and the recently characterized positive elements with their respective protein factors has been found under repressed and induced conditions of the gene. The negative element also harbors the core glucocorticoid responsive sequence, TGTCCT. It is concluded that the negative element mediates the repressed state of the gene under the uninduced condition and also mediates the repressive effect of dexamethasone, when given along with the inducer phenobarbitone in rats. Dexamethasone is able to antagonize the effects of phenobarbitone at as low a concentration as 100 micrograms/kg body wt in these animals.
基于DNA酶I足迹法、凝胶迁移率变动分析以及使用Bal-31突变体的无细胞转录分析,已发现CYP2B1/B2基因上游-160至-127核苷酸区域作为负性顺式作用元件发挥功能。在该基因的抑制和诱导条件下,已发现负性元件和最近鉴定的正性元件与其各自蛋白质因子相互作用时存在相互关系。负性元件还包含核心糖皮质激素反应序列TGTCCT。得出的结论是,负性元件在未诱导条件下介导基因的抑制状态,并且在大鼠中与诱导剂苯巴比妥一起给予时,也介导地塞米松的抑制作用。在这些动物中,地塞米松能够在低至100微克/千克体重的浓度下拮抗苯巴比妥的作用。