Comparative RNA-Seq and Microarray Analysis of Gene Expression Changes in B-Cell Lymphomas of Canis familiaris

Mooney, Marie R.; Bond, Jeff; Monks, Noel R.; Eugster, Emily; Cherba, David; Berlinski, Pamela J.; Kamerling, Steve; Marotti, Keith R.; Simpson, Heather; Rusk, Tony; Tembe, Waibhav; Legendre, Christophe; Benson, Hollie; Liang, Winnie S.; Webb, Craig P.

doi:10.1371/journal.pone.0061088

Cited by 58 publications

(44 citation statements)

References 62 publications

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“…The only exception was a higher transcription of parents in pollen relative to seedlings in RNA sequencing (mean and quantile 1 samples; absent in the quantile 4 sample), while the opposite results were obtained using microarrays ( Figures 3A and 3F). This difference is due to the higher sensitivity of RNA sequencing technology to quantify transcripts from lowly transcribed genes (Mooney et al, 2013;Zhao et al, 2014). This partially applies also to retrogenes, as the upregulation in pollen versus seedling is more pronounced in RNA sequencing compared with microarrays ( Figure 3F).…”

Section: Arabidopsis Retrogenes Are Transcribed In Male Gametesmentioning

confidence: 99%

Pollen-Specific Activation of Arabidopsis Retrogenes Is Associated with Global Transcriptional Reprogramming

Abdelsamad

Pečinka

2014

The Plant Cell

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Duplications allow for gene functional diversification and accelerate genome evolution. Occasionally, the transposon amplification machinery reverse transcribes the mRNA of a gene, integrates it into the genome, and forms an RNA-duplicated copy: the retrogene. Although retrogenes have been found in plants, their biology and evolution are poorly understood. Here, we identified 251 (216 novel) retrogenes in Arabidopsis thaliana, corresponding to 1% of protein-coding genes. Arabidopsis retrogenes are derived from ubiquitously transcribed parents and reside in gene-rich chromosomal regions. Approximately 25% of retrogenes are cotranscribed with their parents and 3% with head-to-head oriented neighbors. This suggests transcription by novel promoters for 72% of Arabidopsis retrogenes. Many retrogenes reach their transcription maximum in pollen, the tissue analogous to animal spermatocytes, where upregulation of retrogenes has been found previously. This implies an evolutionarily conserved mechanism leading to this transcription pattern of RNA-duplicated genes. During transcriptional repression, retrogenes are depleted of permissive chromatin marks without an obvious enrichment for repressive modifications. However, this pattern is common to many other pollen-transcribed genes independent of their evolutionary origin. Hence, retroposition plays a role in plant genome evolution, and the developmental transcription pattern of retrogenes suggests an analogous regulation of RNA-duplicated genes in plants and animals.

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Section: Arabidopsis Retrogenes Are Transcribed In Male Gametesmentioning

confidence: 99%

Pollen-Specific Activation of Arabidopsis Retrogenes Is Associated with Global Transcriptional Reprogramming

Abdelsamad

Pečinka

2014

The Plant Cell

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“…However while microarray studies are instructive, they are being increasingly eclipsed by the utility of next generation high throughput sequencing (HTS) technologies [11]. Several studies have indicated that HTS technologies can determine gene expression level more accurately than microarrays [12,13], and also offer exciting insight into the transcript structures present under each condition studied [11,14,15]. The RpoN regulon of C. jejuni has been characterized by profiling the transcriptome of an rpoN mutant using HTS and compared to results previously obtained using microarray technologies [16].…”

Section: Introductionmentioning

confidence: 99%

The Transcriptional Landscape of Campylobacter jejuni under Iron Replete and Iron Limited Growth Conditions

Butcher

Stintzi

2013

PLoS ONE

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The genome-wide Campylobacter jejuni transcriptional response under iron replete and iron limited conditions was characterized using RNA-seq. We have identified 111 novel C. jejuni 5’UTRs and mapped 377 co-transcribed genes into 230 transcriptional operons. In contrast to previous microarray results, the C. jejuni iron stimulon is less extensive than previously believed and consists of 77 iron activated genes and 50 iron repressed genes. As anticipated, the iron repressed genes are primarily those involved in iron acquisition or oxidative stress defense. Interestingly, these experiments have revealed that iron is an important modulator of flagellar biogenesis with almost all the components of the flagella found to be iron activated. Given that motility is a well-known C. jejuni colonization factor, this suggests that there is an important regulatory coupling of flagellar biogenesis and iron level in C. jejuni. In addition we have identified several consensus mutations in the C. jejuni NCTC11168 strain that are widespread in the Campylobacter research community and which may explain conflicting phenotypic reports for this strain. Comparative analysis of iron responsive genes with the known Fur regulon indicates that many iron responsive genes are not Fur responsive; suggesting that additional iron regulatory factors remain to be characterized in C. jejuni. Further analysis of the RNA-seq data identified multiple novel transcripts including 19 potential ncRNAs. The expression of selected ncRNAs was confirmed and quantified with qRT-PCR. The qRT-PCR results indicate that several of these novel transcripts are either Fur and/or iron responsive. The fact that several of these ncRNAs are iron responsive or Fur regulated suggests that they may perform regulatory roles in iron homeostasis.

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“…Recently published studies have compared data obtained from microarrays and RNA-seq in terms of technical reproducibility, variance structure, absolute expression and detection of DEGs or gene isoforms 8–20 (Supplementary Table 1). Some of these studies suggested that RNA-seq exhibits lower precision for weakly expressed genes owing to the nature of sampling 21, 22 , whereas others found higher sensitivity of RNA-seq for gene detection 23, 24 . The varied conclusions can be attributed to the fact that they used few treatment conditions and hence they do not cover a wide range of biologic complexity.…”

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confidence: 99%

The concordance between RNA-seq and microarray data depends on chemical treatment and transcript abundance

et al. 2014

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RNA-seq facilitates unbiased genome-wide gene-expression profiling. However, its concordance with the well-established microarray platform must be rigorously assessed for confident uses in clinical and regulatory application. Here we use a comprehensive study design to generate Illumina RNA-seq and Affymetrix microarray data from the same set of liver samples of rats under varying degrees of perturbation by 27 chemicals representing multiple modes of action (MOA). The cross-platform concordance in terms of differentially expressed genes (DEGs) or enriched pathways is highly correlated with treatment effect size, gene-expression abundance and the biological complexity of the MOA. RNA-seq outperforms microarray (90% versus 76%) in DEG verification by quantitative PCR and the main gain is its improved accuracy for low expressed genes. Nonetheless, predictive classifiers derived from both platforms performed similarly. Therefore, the endpoint studied and its biological complexity, transcript abundance, and intended application are important factors in transcriptomic research and for decision-making.

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Comparative RNA-Seq and Microarray Analysis of Gene Expression Changes in B-Cell Lymphomas of Canis familiaris

Cited by 58 publications

References 62 publications

Pollen-Specific Activation of Arabidopsis Retrogenes Is Associated with Global Transcriptional Reprogramming

Pollen-Specific Activation of Arabidopsis Retrogenes Is Associated with Global Transcriptional Reprogramming

The Transcriptional Landscape of Campylobacter jejuni under Iron Replete and Iron Limited Growth Conditions

The concordance between RNA-seq and microarray data depends on chemical treatment and transcript abundance

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