Simultaneous RNA-Seq Analysis of a Mixed Transcriptome of Rice and Blast Fungus Interaction

Kawahara, Yoshihiro; Oono, Youko; Kanamori, Hajime; Matsumoto, Takashi; Itoh, Takeshi; Minami, Eiichi

doi:10.1371/journal.pone.0049423

Cited by 244 publications

(201 citation statements)

References 61 publications

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“…Few studies dedicated to parasite-host or pathogen-host biological systems have evaluated the transcript proportion produced by each protagonist during the course of the interaction. In a plant-fungal pathogen interaction, pathogenic fungal transcripts were estimated to represent 0.5% to 28% of the total transcripts analyzed (60,61). During the course of a baculovirus infection, viral mRNA in host cells increased from 3% to Ͼ80% of the total mRNA within the first 48 h after infection (52).…”

Section: Discussionmentioning

confidence: 99%

Functional Annotation of Cotesia congregata Bracovirus: Identification of Viral Genes Expressed in Parasitized Host Immune Tissues

Chevignon

Thézé

Cambier

et al. 2014

J Virol

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Bracoviruses (BVs) from the Polydnaviridae family are symbiotic viruses used as biological weapons by parasitoid wasps to manipulate lepidopteran host physiology and induce parasitism success. BV particles are produced by wasp ovaries and injected along with the eggs into the caterpillar host body, where viral gene expression is necessary for wasp development. Recent sequencing of the proviral genome of Cotesia congregata BV (CcBV) identified 222 predicted virulence genes present on 35 proviral segments integrated into the wasp genome. To date, the expressions of only a few selected candidate virulence genes have been studied in the caterpillar host, and we lacked a global vision of viral gene expression. In this study, a large-scale transcriptomic analysis by 454 sequencing of two immune tissues (fat body and hemocytes) of parasitized Manduca sexta caterpillar hosts allowed the detection of expression of 88 CcBV genes expressed 24 h after the onset of parasitism. We linked the expression profiles of these genes to several factors, showing that different regulatory mechanisms control viral gene expression in the host. These factors include the presence of signal peptides in encoded proteins, diversification of promoter regions, and, more surprisingly, gene position on the proviral genome. Indeed, most genes for which expression could be detected are localized in particular proviral regions globally producing higher numbers of circles. Moreover, this polydnavirus (PDV) transcriptomic analysis also reveals that a majority of CcBV genes possess at least one intron and an arthropod transcription start site, consistent with an insect origin of these virulence genes. IMPORTANCEBracoviruses (BVs) are symbiotic polydnaviruses used by parasitoid wasps to manipulate lepidopteran host physiology, ensuring wasp offspring survival. To date, the expressions of only a few selected candidate BV virulence genes have been studied in caterpillar hosts. We performed a large-scale analysis of BV gene expression in two immune tissues of Manduca sexta caterpillars parasitized by Cotesia congregata wasps. Genes for which expression could be detected corresponded to genes localized in particular regions of the viral genome globally producing higher numbers of circles. Our study thus brings an original global vision of viral gene expression and paves the way to the determination of the regulatory mechanisms enabling the expression of BV genes in targeted organisms, such as major insect pests. In addition, we identify sequence features suggesting that most BV virulence genes were acquired from insect genomes.

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Section: Discussionmentioning

confidence: 99%

Functional Annotation of Cotesia congregata Bracovirus: Identification of Viral Genes Expressed in Parasitized Host Immune Tissues

Chevignon

Thézé

Cambier

et al. 2014

J Virol

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“…Our general understanding of discreet molecular events involved in compatible (susceptible) and incompatible (resistant) plant-nematode interactions is limited in comparison to other signiicant host-pathogen associations. Recently, RNASequencing has been frequently used in plant pathological studies to proile gene expression paterns in host plants and pathogens [93,94]. Diferential genetic expression proiles of many speciic genes involved in plant immune responses has been shown in resistant and susceptible plants challenged by root-knot nematodes [48,95].…”

Section: Mi-12 (Referred To Asmentioning

confidence: 99%

The Impact of Plant-Parasitic Nematodes on Agriculture and Methods of Control

Bernard¹,

Egnin²,

Bonsi³

2017

Nematology - Concepts, Diagnosis and Control

127

101

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Plant-parasitic nematodes are costly burdens of crop production. Ubiquitous in nature, phytoparasitic nematodes are associated with nearly every important agricultural crop and represent a signiicant constraint on global food security. Root-knot nematodes (Meloidogyne spp.) cyst nematodes (Heterodera and Globodera spp.) and lesion nematodes (Pratylenchus spp.) rank at the top of list of the most economically and scientiically important species due to their intricate relationship with the host plants, wide host range, and the level of damage ensued by infection. Limitations on the use of chemical pesticides have brought increasing interest in studies on alternative methods of nematode control. Among these strategies of nonchemical nematode management is the identiication and implementation of host resistance. In addition, nematode genes involved in parasitism represent key targets for the development of control through gene silencing methods such as RNA interference. Recently, transcriptome proiling analyses has been used to distinguish nematode resistant and susceptible genotypes and identify the speciic molecular components and pathways triggered during the plant immune response to nematode invasion. This summary highlights the importance of plant-parasitic nematodes in agriculture and the molecular events involved in plant-nematode interactions.

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“…RNAseq analysis of host-pathogen interactions has already been successfully applied for eukaryotic pathogens [11][12][13][14][15] . Transcripts of eukaryotic pathogens, unlike bacteria, are polyadenylated, and occur with comparable abundance to the hosts.…”

Section: Comparison To Other Currently Available Methodsmentioning

confidence: 99%

A highly multiplexed and sensitive RNA-seq protocol for simultaneous analysis of host and pathogen transcriptomes

et al. 2016

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EDITORIAL SUMMARY:This protocol enables simultaneous analysis of host and bacterial transcripts by RNA-Seq. Including procedures for efficient host and bacterial cell lysis, barcoding of samples, and analysis of both mammalian and microbial reads from mixed host-pathogen RNA-Seq data.TWEET: Simultaneous analysis of host and pathogen transcriptomes by RNA-Seq. Abstract The ability to simultaneously characterize the bacterial and host expression programs during infection would facilitate a comprehensive understanding of pathogen-host interactions. While RNA-Seq has greatly advanced our ability to study the transcriptomes of prokaryote and eukaryotes separately, limitations in existing protocols for generating and analyzing RNA-Seq data have hindered simultaneous profiling of host and bacterial pathogen transcripts from the same sample. Here we provide a detailed protocol for simultaneous analysis of host and bacterial transcripts by RNA-Seq. Importantly, this protocol details the steps required for efficient host and bacteria lysis, barcoding of samples, technical advances in sample preparation for low yield sample inputs and a computational pipeline to analyze both mammalian and microbial reads from mixed hostpathogen RNA-Seq data. Sample preparation takes 3 d from cultured cells to pooled libraries. Data analysis takes an additional day. Compared with previous methods, the protocol detailed here provides a sensitive, facile and generalizable approach, suitable for large-scale studies, which will enable the field to obtain in-depth analysis of hostpathogen interactions in infection models. Introduction Intracellular bacterial pathogens, such as Mycobacterium tuberculosis, Salmonella enterica, Legionella pneumophilia, and Neisseria gonorrhea, spend a significant portion of their life-cycle surviving and replicating within host cells. The cellular interaction entails both a complex virulence program executed by the bacterial pathogen during infection 1 and activation of an orchestrated defense response by the host to counter the pathogen 2 . Genomic approaches have been employed in recent years to uncover substantial molecular details of this rich host-pathogen biology 3, 4 . However, technical constraints limit these studies to profiling either the host or the pathogen -while a comprehensive understanding of host-pathogen interactions requires simultaneous analysis of the associated gene expression changes in both the pathogen and the host 5 . The limitations of conventional protocols for simultaneous analysis of host and pathogen transcripts include 1) the inability to obtain high quality RNA with efficient lysis of both bacterial and mammalian host cells; 2) inefficient depletion of both microbial and mammalian ribosomal RNA species; 3) inability to simultaneously process polyadenylated and non-polyadenylated transcripts from low yield samples (>10ng of RNA); and 4) a lack of robust computational approaches for analyzing the often small subset of bacterial transcripts in infected cells or tissue. Recently, sever...

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Simultaneous RNA-Seq Analysis of a Mixed Transcriptome of Rice and Blast Fungus Interaction

Cited by 244 publications

References 61 publications

Functional Annotation of Cotesia congregata Bracovirus: Identification of Viral Genes Expressed in Parasitized Host Immune Tissues

Functional Annotation of Cotesia congregata Bracovirus: Identification of Viral Genes Expressed in Parasitized Host Immune Tissues

The Impact of Plant-Parasitic Nematodes on Agriculture and Methods of Control

A highly multiplexed and sensitive RNA-seq protocol for simultaneous analysis of host and pathogen transcriptomes

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