Reyes Dindo Y, Zuber Peter
Department of Environmental and Biomolecular Systems, OGI School of Science and Engineering, Oregon Health and Science University, 20000 NW Walker Rd., Beaverton, OR 97006, USA.
Mol Microbiol. 2008 Aug;69(3):765-79. doi: 10.1111/j.1365-2958.2008.06330.x.
The Spx protein of Bacillus subtilis interacts with RNA polymerase (RNAP) to activate transcription initiation in response to thiol-oxidative stress. Protein-DNA cross-linking analysis of reactions containing RNAP, Spx and trxA (thioredoxin) or trxB (thioredoxin reductase) promoter DNA was undertaken to uncover the organization of the Spx-activated transcription initiation complex. Spx induced contact between the RNAP sigma(A) subunit and the -10 promoter sequence of trxA and B, and contact of the betabeta' subunits with core promoter DNA. No Spx-DNA contact was detected. Spx mutants, Spx(C10A) and Spx(G52R.), or RNAP alpha C-terminal domain mutants that impair productive Spx-RNAP interaction did not induce heightened sigma and betabeta' contact with the core promoter. Deletion analysis and the activity of hybrid promoter constructs having upstream trxB DNA fused at positions -31, -36 and -41 of the srf (surfactin synthetase) promoter indicated that a cis-acting site between -50 and -36 was required for Spx activity. Mutations at -43 and -44 of trxB abolished Spx-dependent transcription and Spx-induced cross-linking between the sigma subunit and the -10 region. These data are consistent with a model that Spx activation requires contact between the Spx/RNAP complex and upstream promoter DNA, which allows Spx-induced engagement of the sigma and large subunits with the core promoter.
枯草芽孢杆菌的Spx蛋白与RNA聚合酶(RNAP)相互作用,以响应硫醇氧化应激激活转录起始。对含有RNAP、Spx和trxA(硫氧还蛋白)或trxB(硫氧还蛋白还原酶)启动子DNA的反应进行蛋白质-DNA交联分析,以揭示Spx激活的转录起始复合物的组织形式。Spx诱导RNAP σ(A)亚基与trxA和trxB的-10启动子序列之间发生接触,以及ββ'亚基与核心启动子DNA发生接触。未检测到Spx与DNA的接触。损害Spx-RNAP有效相互作用的Spx突变体Spx(C10A)和Spx(G52R),或RNAP α C末端结构域突变体,不会诱导σ和ββ'与核心启动子的接触增强。缺失分析以及将上游trxB DNA融合在srf(表面活性素合成酶)启动子的-31、-36和-41位置的杂合启动子构建体的活性表明,Spx活性需要-50至-36之间的顺式作用位点。trxB的-43和-44位的突变消除了Spx依赖性转录以及Spx诱导的σ亚基与-10区域之间的交联。这些数据与一个模型一致,即Spx激活需要Spx/RNAP复合物与上游启动子DNA之间的接触,这允许Spx诱导σ和大亚基与核心启动子结合。