2008
DOI: 10.1101/gr.6897308
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Comparative analysis of the small RNA transcriptomes of Pinus contorta and Oryza sativa

Abstract: The diversity of microRNAs and small-interfering RNAs has been extensively explored within angiosperms by focusing on a few key organisms such as Oryza sativa and Arabidopsis thaliana. A deeper division of the plants is defined by the radiation of the angiosperms and gymnosperms, with the latter comprising the commercially important conifers. The conifers are expected to provide important information regarding the evolution of highly conserved small regulatory RNAs. Deep sequencing provides the means to charac… Show more

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Cited by 300 publications
(303 citation statements)
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“…SBS sequencing of small RNAs from a wild rice relative, Oryza barthii (Fig. 2, an unpublished experiment recently undertaken in our lab) and 454 sequencing of cultivated rice small RNAs (from O. sativa [67]) have both demonstrated the two major sizes of sRNAs, 21 and 24 nt, consistent with prior reports from Arabidopsis and other species. In general, high-throughput analyses have enabled the explo- …”
Section: Ritssupporting
confidence: 74%
See 1 more Smart Citation
“…SBS sequencing of small RNAs from a wild rice relative, Oryza barthii (Fig. 2, an unpublished experiment recently undertaken in our lab) and 454 sequencing of cultivated rice small RNAs (from O. sativa [67]) have both demonstrated the two major sizes of sRNAs, 21 and 24 nt, consistent with prior reports from Arabidopsis and other species. In general, high-throughput analyses have enabled the explo- …”
Section: Ritssupporting
confidence: 74%
“…ration of rice small RNA populations, and many new miRNAs have been discovered recently in rice [34,36,47,67]. This includes a special class of natural antisense transcript miRNAs (nat-miRNAs), which are derived from natural cis-antisense transcripts with exons primarily located antisense to the introns of their target genes; these nat-miRNAs are DCL1-dependent [47].…”
Section: Ritsmentioning
confidence: 99%
“…It is well established that the relative abundance of the 24-nt and the 21-nt length classes may vary depending on the species and the tissue type, among other factors. In fact, previous reports refer that the 24-nt sRNAs is the predominant size class, for instance in Arabidopsis thaliana, Nicothiana benthamiana, Solano lycopersicum, Oriza sativa and Olea europea (Morin et al 2008;Pantaleo et al 2010;Donaire et al 2011;Kasschau et al 2007), while the 21-nt class is more abundant in species such as Eschscholzia californica, Hordeum vulgare, Vitis vinifera, Pinus contorta and Panax gynseng (Pantaleo et al 2010;Morin et al 2008;Schreiber et al 2011;Barakat et al 2007). The tissue-dependent variation in the pools of 24 and 21-nt classes has also been observed in other plant species (Pantaleo et al 2010) and, in a few cases, striking variation has been detected (Slotkin et al 2009) reflecting the sRNA biogenesis pathways operating in such tissues.…”
Section: Discussionmentioning
confidence: 99%
“…There has been conflicting evidence about the presence of 24-nucleotide short RNAs (sRNAs) in gymnosperms [26][27][28][29] , a class of sRNA that silence transposable elements by the establishment of DNA methylation 30 . Across 22 samples, we identified numerous 24-nucleotide sRNAs, but these were highly specific to reproductive tissues, largely associated with repeats but present at substantially lower levels than in angiosperms ( Fig.…”
Section: Presence Of Long Introns and Gene-like Fragmentsmentioning
confidence: 99%