Singapore-HUJ Alliance for Research and Enterprise, Molecular Mechanisms of Inflammatory Diseases Interdisciplinary Research Group, Campus for Research Excellence and Technological Enterprise, Singapore, Singapore.
Dept. of Microbiology and Immunology, Yong Loo Lin School of Medicine, National University of Singapore, Singapore, Singapore.
PLoS One. 2020 Aug 17;15(8):e0237540. doi: 10.1371/journal.pone.0237540. eCollection 2020.
The yeast MAP kinase Hog1 pathway activates transcription of several hundreds genes. Large-scale gene expression and DNA binding assays suggest that most Hog1-induced genes are regulated by the transcriptional activators Msn2/4, Hot1 and Sko1. These studies also revealed the target genes of each activator and the putative binding sites on their promoters. In a previous study we identified a group of genes, which we considered the bona fide targets of Hog1, because they were induced in response to expression of intrinsically active mutant of Hog1, in the absence of any stress. We previously analyzed the promoter of the most highly induced gene, STL1, and noticed that some promoter properties were different from those proposed by large-scale data. We therefore continue to study promoters individually and present here analyses of promoters of more Hog1's targets, RTC3, HSP12, DAK1 and ALD3. We report that RTC3 and HSP12 promoters are robust and are induced, to different degrees, even in cells lacking all four activators. DAK1 and ALD3 promoters are not robust and fully depend on a single activator, DAK1 on Sko1 and ALD3 on Msn2/4. Most of these observations could not be inferred from the large-scale data. Msn2/4 are involved in regulating all four promoters. It was assumed, therefore, that the promoters are spontaneously active in ras2Δ cells, in which Msn2/4 are known to be de-repressed. Intriguingly, the promoters were not active in BY4741ras2Δ cells, but were de-repressed, as expected, in ras2Δ cells of other genetic backgrounds. This study describes two phenomena. One, some Hog1's target promoters are most robust, backupped by many activators. Second, in contrast to most laboratory strains, the widely used BY4741 strain does not induce Msn2/4 activity when the Ras/cAMP cascade is downregulated.
酵母丝裂原活化蛋白激酶 Hog1 途径激活数百个基因的转录。大规模基因表达和 DNA 结合实验表明,大多数 Hog1 诱导的基因受转录激活因子 Msn2/4、Hot1 和 Sko1 的调控。这些研究还揭示了每个激活因子的靶基因及其启动子上的假定结合位点。在之前的一项研究中,我们鉴定了一组基因,我们认为这些基因是 Hog1 的真正靶标,因为它们在不施加任何胁迫的情况下,响应表达组成型激活的 Hog1 突变体而被诱导。我们之前分析了最受诱导基因 STL1 的启动子,注意到一些启动子特性与大规模数据提出的特性不同。因此,我们继续单独研究启动子,并在此介绍对更多 Hog1 靶基因 RTC3、HSP12、DAK1 和 ALD3 的启动子的分析。我们报告称,RTC3 和 HSP12 启动子是稳健的,即使在缺乏所有四个激活因子的细胞中,它们也会被不同程度地诱导。DAK1 和 ALD3 启动子不是稳健的,完全依赖于单个激活因子,DAK1 依赖于 Sko1,ALD3 依赖于 Msn2/4。这些观察结果中的大多数都不能从大规模数据中推断出来。Msn2/4 参与调节所有四个启动子。因此,人们假设这些启动子在 Ras2Δ 细胞中是自发激活的,已知在 Ras2Δ 细胞中 Msn2/4 被去阻遏。有趣的是,这些启动子在 BY4741ras2Δ 细胞中没有活性,但在其他遗传背景的 Ras2Δ 细胞中,如预期的那样,被去阻遏。本研究描述了两种现象。一是,一些 Hog1 的靶标启动子最稳健,有多个激活子支持。二是,与大多数实验室菌株不同,广泛使用的 BY4741 菌株在 Ras/cAMP 级联下调时不会诱导 Msn2/4 活性。
