Dipartimento di Biotecnologie e Bioscienze, Università di Milano-Bicocca, Milano, Italy.
Biotechnol Adv. 2012 Jan-Feb;30(1):185-201. doi: 10.1016/j.biotechadv.2011.09.007. Epub 2011 Sep 21.
The FAR1 gene encodes an 830 residue bifunctional protein, whose major function is inhibition of cyclin-dependent kinase complexes involved in the G1/S transition. FAR1 transcription is maximal between mitosis and early G1 phase. Enhanced FAR1 transcription is necessary but not sufficient for the pheromone-induced G1 arrest, since FAR1 overexpression itself does not trigger cell cycle arrest. Besides its well established role in the response to pheromone, recent evidences suggest that Far1 may also regulate the mitotic cell cycle progression: in particular, it has been proposed that Far1, together with the G1 cyclin Cln3, may be part of a cell sizer mechanism that controls the entry into S phase. Far1 is an unstable protein throughout the cell cycle except during G1 phase. Far1 levels peak in newborn cells as a consequence of a burst of synthetic activity at the end of the previous cycle, and the amounts per cell remain roughly constant during the G1 phase. Phosphorylation (at serine 87) by Cdk1-Cln complexes primes Far1 for ubiquitin-mediated proteolysis. By coupling a genome-wide transcriptional analysis of FAR1-overexpressing and far1Δ cells grown in ethanol- or glucose-supplemented minimal media with a range of phenotypic analysis, we show that FAR1 overexpression not only coordinately increases RNA and protein accumulation, but induces strong transcriptional remodeling, metabolism being the most affected cellular property, suggesting that the Far1/Cln3 sizer regulates cell growth either directly or indirectly by affecting metabolism and pathways known to modulate ribosome biogenesis. A crucial role in mediating the effect of Far1 overexpression is played by the Sfp1 protein, a key transcriptional regulator of ribosome biogenesis, whose presence is mandatory to allow a coordinated increase in both RNA and protein levels in ethanol-grown cells.
FAR1 基因编码一个 830 个残基的双功能蛋白,其主要功能是抑制参与 G1/S 期转换的细胞周期蛋白依赖性激酶复合物。FAR1 转录在有丝分裂和早期 G1 期达到最大值。增强 FAR1 转录对于诱导细胞周期停滞的交配型信息素是必要的,但不是充分的,因为 FAR1 过表达本身不会触发细胞周期停滞。除了在响应交配型信息素方面的作用外,最近的证据表明 Far1 也可能调节有丝分裂细胞周期的进展:特别是,有人提出 Far1 与 G1 周期蛋白 Cln3 一起可能是控制细胞进入 S 期的细胞大小机制的一部分。在整个细胞周期中,除了在 G1 期之外,Far1 都是一种不稳定的蛋白质。由于在上一个周期结束时合成活性的爆发,新生细胞中的 Far1 水平达到峰值,并且每个细胞的数量在 G1 期大致保持不变。Cdk1-Cln 复合物对丝氨酸 87 的磷酸化(phosphorylation)使 Far1 为泛素介导的蛋白水解做好准备。通过将 FAR1 过表达和 far1Δ 细胞在乙醇或葡萄糖补充的最小培养基中生长的全基因组转录分析与一系列表型分析相结合,我们表明 FAR1 过表达不仅协调地增加 RNA 和蛋白质的积累,而且诱导强烈的转录重塑,代谢是受影响最大的细胞特性,这表明 Far1/Cln3 大小因子通过影响代谢和已知调节核糖体生物发生的途径直接或间接地调节细胞生长。Sfp1 蛋白在介导 Far1 过表达的效应中起着关键作用,Sfp1 蛋白是核糖体生物发生的关键转录调节剂,其存在是允许在乙醇生长的细胞中协调增加 RNA 和蛋白质水平的必要条件。
