2018
DOI: 10.1101/gr.239202.118
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NanoPARE: parallel analysis of RNA 5′ ends from low-input RNA

Abstract: Diverse RNA 5′ ends are generated through both transcriptional and post-transcriptional processes. These important modes of gene regulation often vary across cell types and can contribute to the diversification of transcriptomes and thus cellular differentiation. Therefore, the identification of primary and processed 5′ ends of RNAs is important for their functional characterization. Methods have been developed to profile either RNA 5′ ends from primary transcripts or the products of RNA degradation genome-wid… Show more

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Cited by 67 publications
(105 citation statements)
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“…Overall, these results indicate that CAGE, PEAT-seq and nanoPARE are the most accurate TSS sets, where PEAT-seq likely has lower sensitivity, followed by annotated TAIR10 TSSs. In contrast, ARAPORT11 TSSs are misplaced by 128 bp upstream on average, possibly due to the overestimation of transcript lengths, as suggested previously (Schon et al, 2018) . Due to the higher agreement of CAGE, and other 5'-end sets, with TAIR10 annotated TSSs vs.…”
Section: Most Arabidopsis Genes Expressed In Unchallenged Wild Type Smentioning
confidence: 56%
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“…Overall, these results indicate that CAGE, PEAT-seq and nanoPARE are the most accurate TSS sets, where PEAT-seq likely has lower sensitivity, followed by annotated TAIR10 TSSs. In contrast, ARAPORT11 TSSs are misplaced by 128 bp upstream on average, possibly due to the overestimation of transcript lengths, as suggested previously (Schon et al, 2018) . Due to the higher agreement of CAGE, and other 5'-end sets, with TAIR10 annotated TSSs vs.…”
Section: Most Arabidopsis Genes Expressed In Unchallenged Wild Type Smentioning
confidence: 56%
“…Because we found a discrepancy between ARAPORT11 and TAIR10 TSS annotations, it was important to assess which of these TSS annotations is the most accurate, in particular since our CAGE data were more supportive of the TAIR10 annotation ( Figure 1E-F ). To do this, we also considered two previous genome-wide TSS data sets: paired-end analysis of transcription sequencing (PEAT-seq) using roots (Morton et al, 2014) , and parallel analysis of RNA 5'-ends (nanoPARE) using flower buds (Schon et al, 2018) . The majority (62%) of TCs/TSSs was supported by at least two methods, where nanoPARE had the highest fraction of called TCs/TSSs without support from the other methods (25%), compared to CAGE (12%) and PEAT (1%) ( Figure 3A , see Methods).…”
Section: Most Arabidopsis Genes Expressed In Unchallenged Wild Type Smentioning
confidence: 99%
“…We previously developed a method called nanoPARE to enable the confident identification of miRNA-mediated target RNA cleavage products from low-input RNA (Schon et al, 2018) . To identify embryonic miRNA targets, we therefore generated nanoPARE libraries from the same eight stages of embryogenesis used for miRNA profiling in biological triplicates.…”
Section: Identification Of Embryonic Mirna Targetsmentioning
confidence: 99%
“…The nanoPARE datasets and target predictions for 164 miRNAs detected ≥1 RPM in ≥1 embryonic stage were used as input for the EndCut software (Schon et al, 2018) and 115 significant individual target transcript cleavage sites in developing embryos were identified in ≥1 library (Benjamini-Hochberg adjusted P -values < 0.05) (Table S3). These 115 target sites included 59 sites that were identified in ≥2 biological replicates from ≥1 developmental stage (i.e.…”
Section: Identification Of Embryonic Mirna Targetsmentioning
confidence: 99%
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