Matsushita Mayumi, Tada Sawaki, Suzuki Satoshi, Kusumoto Ken-Ichi, Kashiwagi Yutaka
National Food Research Institute, 2-1-12 Kan'nondai, Tsukuba, Ibaraki, Japan.
J Biosci Bioeng. 2009 Apr;107(4):345-51. doi: 10.1016/j.jbiosc.2008.11.024.
In order to find a promoter that could be influenced by temperature shift, we explored and isolated an Aspergillus oryzae gene expressed at high temperatures (37-42 degrees C) by the cDNA subtraction method. Of the 96 cDNA clones isolated from the subtraction library, one cDNA clone showed 73% identity with Aspergillus nidulans heat shock protein 30 (hsp30). Based on this, we designated the isolated gene hsp30 of A. oryzae. A. oryzae hsp30 was weakly expressed at 30 degrees C, but strongly at 40 degrees C. We showed that the promoter of this hsp30 induced heterologous gene expression at high temperatures using beta-glucuronidase (GUS) gene as a reporter. Regarding elucidation of the region essential for heat shock response, we showed that the minimum length of the promoter region that was essential for heat shock response was located between -388 and -272 (+1 indicated the first position of the translation initiation codon) of the hsp30 promoter. This promoter region harbors several putative transcription factor binding sites, including heat shock elements (HSEs), a CCAAT box, and a TATA box. Furthermore, site-directed mutagenesis of this promoter revealed that HSE1 (aTTCgtcGAAacgcccaGAAa) and HSE2 (cGAAagTTCtcGACg), located between -342 and -272 of the hsp30 promoter, were its cis-acting elements for heat shock response.
为了找到一个可受温度变化影响的启动子,我们通过cDNA消减杂交法探索并分离了一个在高温(37 - 42摄氏度)下表达的米曲霉基因。从消减文库中分离出的96个cDNA克隆中,有一个cDNA克隆与构巢曲霉热休克蛋白30(hsp30)具有73%的同一性。基于此,我们将分离出的基因命名为米曲霉hsp30。米曲霉hsp30在30摄氏度时弱表达,但在40摄氏度时强表达。我们以β-葡萄糖醛酸酶(GUS)基因作为报告基因,证明了该hsp30的启动子在高温下可诱导异源基因表达。关于热休克反应必需区域的阐明,我们发现hsp30启动子热休克反应必需的启动子区域的最小长度位于-388至-272之间(+1表示翻译起始密码子的第一个位置)。该启动子区域包含几个推定的转录因子结合位点,包括热休克元件(HSEs)、一个CCAAT框和一个TATA框。此外,对该启动子进行定点诱变表明,位于hsp30启动子-342至-272之间的HSE1(aTTCgtcGAAacgcccaGAAa)和HSE2(cGAAagTTCtcGACg)是其热休克反应的顺式作用元件。
