Mutational Analysis of Transcriptional Initiation in Bacteria

Anthony J. Eckdahl, Todd J. Eckdahl
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引用次数: 1

Abstract

pharmaceuticals, attack cancer cells, neutralize environmental pollutants, and synthesize biofuels (Khalil & Collins, 2010). Gene expression begins with transcription, the process by which DNA information, in the form of the base sequence of a gene, is converted into RNA base sequence information. For genes that encode proteins, the RNA product of transcription is used during translation to encode the sequence of amino acids in a protein. As the first step in gene expression, transcription is an important control point for gene regulation. Initiation of transcription in bacteria involves binding of an enzyme called RNA polymerase to a sequence of DNA called a transcriptional promoter. As illustrated in Figure 1, a common form of bacterial promoters includes two conserved sequence elements, a -35 region that is recognized during transcriptional initiation by RNA polymerase and its associated Sigma factor, and a -10 region that is involved in DNA melting (Ross, Aiyar, Salomon, & Gourse, 1998). The consensus sequence for the -35 region of E. coli promoters has been widely reported to be TTGACA (Harley & Reynolds, 1987; Lisser & Margalit, 1993). The consensus sequence of the -10 region is TATAAT (Waterman, Arratia, & Galas, 1984). The RNA polymerase attaches itself to one of the two DNA strands referred to as the template strand and begins to use it to make RNA. The RNA polymerase proceeds to slide along the template strand for the entire length of the gene, reading it in a 3’ to 5’ direction. Transcription ceases when the RNA polymerase encounters a transcriptional terminator. In bacteria, the resulting RNA transcript is used for translation as soon as it is available. Mutational analysis of the -35 region of naturally occurring promoters showed that the -35 region is involved in the initial binding of the RNA polymerase to the promoter, and that it is an important contributor to the overall strength of a bacterial promoter. An in vitro study of the effect of mutations in the -35 region on the INTRODUCTION Gene expression is the process by which gene information is used to direct the function of cells. It is regulated in all cells because not all genes are required all the time or under all circumstances. For example, human brain cells need to express certain genes that are not needed in muscle cells, and vice versa (Gurdon & Melton, 2008). In a similar sense, bacteria must express different genes depending on temperature, pH, osmotic pressure, or the availability of food (Beales, 2004). Knowledge of gene regulation is important for understanding the differentiation and function of eukaryotic cells, the development of tissues in multicellular organisms, and the relationships of bacteria to their environments throughout the biosphere. It helps us to understand genetic diseases, diseases impacted by genetics, and cellular disorders such as cancer (LópezBigas & Ouzounis, 2004). Gene regulation research can also be used to explore the contribution of bacterial microbiomes to human health and disease (Cho & Blaser, 2012). In the context of synthetic biology, research results on the regulation of gene expression are being applied to engineer bacterial cells that produce Mutational Analysis of Transcriptional Initiation in Bacteria
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细菌转录起始的突变分析
药物,攻击癌细胞,中和环境污染物,合成生物燃料(Khalil & Collins, 2010)。基因表达始于转录,在这个过程中,以基因碱基序列形式存在的DNA信息被转化为RNA碱基序列信息。对于编码蛋白质的基因,转录的RNA产物在翻译过程中被用来编码蛋白质中的氨基酸序列。转录是基因表达的第一步,是基因调控的重要控制点。细菌的转录起始包括一种叫做RNA聚合酶的酶与一种叫做转录启动子的DNA序列的结合。如图1所示,细菌启动子的一种常见形式包括两个保守序列元件,一个-35区域在转录起始时被RNA聚合酶及其相关的Sigma因子识别,另一个-10区域参与DNA熔化(Ross, Aiyar, Salomon, & Gourse, 1998)。大肠杆菌启动子-35区域的一致序列已被广泛报道为TTGACA (Harley & Reynolds, 1987;Lisser & Margalit, 1993)。-10区域的一致序列为TATAAT (Waterman, Arratia, & Galas, 1984)。RNA聚合酶将自己附着在两条DNA链中的一条上,即模板链,并开始用它来制造RNA。RNA聚合酶沿着模板链沿着基因的整个长度滑动,沿着3 '到5 '的方向读取它。当RNA聚合酶遇到转录终止子时,转录就停止了。在细菌中,产生的RNA转录物一旦可用就用于翻译。对天然启动子-35区域的突变分析表明,-35区域参与RNA聚合酶与启动子的初始结合,是细菌启动子整体强度的重要贡献者。一项关于-35区突变对引入基因表达影响的体外研究是利用基因信息指导细胞功能的过程。它在所有细胞中都受到调节,因为不是所有的基因在任何时候或任何情况下都需要。例如,人类脑细胞需要表达某些肌肉细胞不需要的基因,反之亦然(Gurdon & Melton, 2008)。同样,细菌必须根据温度、pH值、渗透压或食物的可获得性表达不同的基因(Beales, 2004)。基因调控的知识对于理解真核细胞的分化和功能、多细胞生物组织的发育以及整个生物圈中细菌与其环境的关系非常重要。它帮助我们了解遗传疾病、受遗传影响的疾病和细胞疾病,如癌症(LópezBigas & Ouzounis, 2004)。基因调控研究也可用于探索细菌微生物组对人类健康和疾病的贡献(Cho & Blaser, 2012)。在合成生物学的背景下,基因表达调控的研究成果正被应用于工程细菌细胞,产生细菌转录起始的突变分析
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