Abstract
Actinobacillus pleuropneumoniae is the pathogen of porcine contagious pleuropneumoniae, a highly contagious respiratory disease of swine. Although the genome of A. pleuropneumoniae was sequenced several years ago, limited information is available on the genome-wide transcriptional analysis to accurately annotate the gene structures and regulatory elements. High-throughput RNA sequencing (RNA-seq) has been applied to study the transcriptional landscape of bacteria, which can efficiently and accurately identify gene expression regions and unknown transcriptional units, especially small non-coding RNAs (sRNAs), UTRs and regulatory regions. The aim of this study is to comprehensively analyze the transcriptome of A. pleuropneumoniae by RNA-seq in order to improve the existing genome annotation and promote our understanding of A. pleuropneumoniae gene structures and RNA-based regulation. In this study, we utilized RNA-seq to construct a single nucleotide resolution transcriptome map of A. pleuropneumoniae. More than 3.8 million high-quality reads (average length ~90 bp) from a cDNA library were generated and aligned to the reference genome. We identified 32 open reading frames encoding novel proteins that were mis-annotated in the previous genome annotations. The start sites for 35 genes based on the current genome annotation were corrected. Furthermore, 51 sRNAs in the A. pleuropneumoniae genome were discovered, of which 40 sRNAs were never reported in previous studies. The transcriptome map also enabled visualization of 5'- and 3'-UTR regions, in which contained 11 sRNAs. In addition, 351 operons covering 1230 genes throughout the whole genome were identified. The RNA-Seq based transcriptome map validated annotated genes and corrected annotations of open reading frames in the genome, and led to the identification of many functional elements (e.g. regions encoding novel proteins, non-coding sRNAs and operon structures). The transcriptional units described in this study provide a foundation for future studies concerning the gene functions and the transcriptional regulatory architectures of this pathogen.
Highlights
During the past decade, a large number of bacterial complete genomes have been finished, providing the sequence basis for transcriptomics and proteomics
To obtain a global view of the A. pleuropneumoniae transcriptome at single-nucleotide resolution, we sequenced the transcriptome of the wild type A. pleuropneumoniae JL03 strain using RNA-Seq
RNA was isolated from bacteria harvested at the mid-exponential growth phase (S2 Fig)
Summary
A large number of bacterial complete genomes have been finished, providing the sequence basis for transcriptomics and proteomics. The genome sequence contains all the information of the functional elements including genes, non-coding RNAs, and UTRs, which are required for a system-level understanding of the survival mechanisms and pathogenesis of microorganism [1]. Genome-wide transcriptome analysis enables researchers to improve the genome structural annotation and reveal the functional and regulatory architecture of the genome [2]. Several recent studies have proven that RNA-Seq can comprehensively re-annotate the bacteria genomes and is useful for understanding the complexity of bacterial transcriptome and identifying previously unknown functional elements [6,7,8]. Thirty-eight novel genes, 94 sRNAs and 278 operon structures in the H. somni genome have been characterized by using a transcriptional map generated by RNA-Seq[10]
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