Conway Tyrrell, Creecy James P, Maddox Scott M, Grissom Joe E, Conkle Trevor L, Shadid Tyler M, Teramoto Jun, San Miguel Phillip, Shimada Tomohiro, Ishihama Akira, Mori Hirotada, Wanner Barry L
Department of Microbiology and Plant Biology, University of Oklahoma, Norman, Oklahoma, USA
Department of Microbiology and Plant Biology, University of Oklahoma, Norman, Oklahoma, USA.
mBio. 2014 Jul 8;5(4):e01442-14. doi: 10.1128/mBio.01442-14.
We analyzed the transcriptome of Escherichia coli K-12 by strand-specific RNA sequencing at single-nucleotide resolution during steady-state (logarithmic-phase) growth and upon entry into stationary phase in glucose minimal medium. To generate high-resolution transcriptome maps, we developed an organizational schema which showed that in practice only three features are required to define operon architecture: the promoter, terminator, and deep RNA sequence read coverage. We precisely annotated 2,122 promoters and 1,774 terminators, defining 1,510 operons with an average of 1.98 genes per operon. Our analyses revealed an unprecedented view of E. coli operon architecture. A large proportion (36%) of operons are complex with internal promoters or terminators that generate multiple transcription units. For 43% of operons, we observed differential expression of polycistronic genes, despite being in the same operons, indicating that E. coli operon architecture allows fine-tuning of gene expression. We found that 276 of 370 convergent operons terminate inefficiently, generating complementary 3' transcript ends which overlap on average by 286 nucleotides, and 136 of 388 divergent operons have promoters arranged such that their 5' ends overlap on average by 168 nucleotides. We found 89 antisense transcripts of 397-nucleotide average length, 7 unannotated transcripts within intergenic regions, and 18 sense transcripts that completely overlap operons on the opposite strand. Of 519 overlapping transcripts, 75% correspond to sequences that are highly conserved in E. coli (>50 genomes). Our data extend recent studies showing unexpected transcriptome complexity in several bacteria and suggest that antisense RNA regulation is widespread. Importance: We precisely mapped the 5' and 3' ends of RNA transcripts across the E. coli K-12 genome by using a single-nucleotide analytical approach. Our resulting high-resolution transcriptome maps show that ca. one-third of E. coli operons are complex, with internal promoters and terminators generating multiple transcription units and allowing differential gene expression within these operons. We discovered extensive antisense transcription that results from more than 500 operons, which fully overlap or extensively overlap adjacent divergent or convergent operons. The genomic regions corresponding to these antisense transcripts are highly conserved in E. coli (including Shigella species), although it remains to be proven whether or not they are functional. Our observations of features unearthed by single-nucleotide transcriptome mapping suggest that deeper layers of transcriptional regulation in bacteria are likely to be revealed in the future.
我们通过单核苷酸分辨率的链特异性RNA测序,分析了大肠杆菌K-12在葡萄糖基本培养基中稳态(对数期)生长期间以及进入稳定期时的转录组。为了生成高分辨率的转录组图谱,我们开发了一种组织架构图,结果表明在实际中仅需三个特征即可定义操纵子结构:启动子、终止子和深度RNA序列读取覆盖度。我们精确注释了2122个启动子和1774个终止子,定义了1510个操纵子,每个操纵子平均有1.98个基因。我们的分析揭示了大肠杆菌操纵子结构前所未有的情况。很大一部分(36%)操纵子很复杂,带有内部启动子或终止子,可产生多个转录单元。对于43%的操纵子,我们观察到多顺反子基因存在差异表达,尽管它们处于同一个操纵子中,这表明大肠杆菌的操纵子结构允许对基因表达进行微调。我们发现,370个 convergent 操纵子中有276个终止效率低下,产生互补的3'转录末端,平均重叠286个核苷酸,388个 divergent 操纵子中有136个的启动子排列方式使得它们的5'末端平均重叠168个核苷酸。我们发现了89个平均长度为397个核苷酸的反义转录本、基因间区域内7个未注释的转录本以及18个与相反链上的操纵子完全重叠的正义转录本。在519个重叠转录本中,75%对应于大肠杆菌中高度保守的序列(>50个基因组)。我们的数据扩展了最近的研究,这些研究表明几种细菌中存在意想不到的转录组复杂性,并表明反义RNA调控广泛存在。重要性:我们使用单核苷酸分析方法精确绘制了大肠杆菌K-12基因组中RNA转录本的5'和3'末端图谱。我们得到的高分辨率转录组图谱显示,约三分之一的大肠杆菌操纵子很复杂,内部启动子和终止子产生多个转录单元,并允许这些操纵子内的基因差异表达。我们发现了广泛的反义转录,这是由500多个操纵子产生的,它们与相邻的 divergent 或 convergent 操纵子完全重叠或广泛重叠。与这些反义转录本对应的基因组区域在大肠杆菌(包括志贺氏菌属)中高度保守,尽管它们是否具有功能仍有待证实。我们通过单核苷酸转录组图谱发现的这些特征表明,未来可能会揭示细菌转录调控的更深层次。
