Vincent S, Jeanteur P, Fort P
URA CNRS 1191 Génétique Moléculaire, Université Montpellier II Sciences et Techniques du Languedoc, France.
Mol Cell Biol. 1992 Jul;12(7):3138-48. doi: 10.1128/mcb.12.7.3138-3148.1992.
Cellular transition from the resting state to DNA synthesis involves master switches genes encoding transcriptional factors (e.g., fos, jun, and egr genes), whose targets remain to be fully characterized. To isolate coding sequences specifically accumulated in late G1, a differential screening was performed on a cDNA library prepared from hamster lung fibroblasts stimulated for 5 h with serum. One of the positive clones which displayed a sevenfold induction, turned out to code for a protein sharing homology to Ras-like products. Cloning and sequence analysis of the human homolog revealed that this putative new small GTPase, referred to as rhoG, is more closely related to the rac, CDC42, and TC10 members of the rho (ras homolog) gene family and might have diverged very early during evolution. rhoG mRNA accumulates in proportion to the mitogenic strength of various purified growth factors used for the stimulation, as a consequence of transcriptional activation. G1-specific RNA accumulation is impaired upon addition of antimitogenic cyclic AMP and is enhanced when protein synthesis is inhibited, mainly as a result of RNA stabilization. rhoG mRNA expression is observed in a wide variety of human organs but reaches a particularly high level in lung and placental tissues.
细胞从静止状态向DNA合成的转变涉及编码转录因子的主控开关基因(例如fos、jun和egr基因),其靶标仍有待全面表征。为了分离在G1晚期特异性积累的编码序列,对用血清刺激5小时的仓鼠肺成纤维细胞制备的cDNA文库进行了差异筛选。其中一个显示出七倍诱导的阳性克隆结果编码一种与Ras样产物具有同源性的蛋白质。人类同源物的克隆和序列分析表明,这种假定的新小GTP酶,称为rhoG,与rho(Ras同源物)基因家族的rac、CDC42和TC10成员关系更密切,并且可能在进化过程中很早就发生了分化。由于转录激活,rhoG mRNA的积累与用于刺激的各种纯化生长因子的促有丝分裂强度成比例。添加抗有丝分裂环磷酸腺苷后,G1特异性RNA积累受损,而当蛋白质合成受到抑制时则增强,这主要是由于RNA稳定化。在多种人类器官中都观察到rhoG mRNA表达,但在肺和胎盘组织中达到特别高的水平。
