Identification of Taxus microRNAs and their targets with high-throughput sequencing and degradome analysis.

Plant microRNAs (miRNAs) have an impact in the regulation of several biological processes such as development, growth and metabolism by negatively controlling gene expression at the post-transcriptional level. However, the role of these small molecules in the medicinal gymnosperm species Taxus remained elusive. To elucidate the role of miRNAs in Taxus we used a deep sequencing approach to analyze the small RNA and degradome sequence tags of Taxus mairei leaves. For miRNAs, the sequencing library generated 14.9 million short sequences, resulting in 13.1 million clean reads. The library contains predominantly small RNAs with 21 nucleotide length, followed by 19-nt and 20-nt small RNAs. Around 29% of total small RNAs are matched to the T. mairei transcriptome. By sequence alignment, we identified 871 mature miRNAs, 15 miRNA* and 869 miRNA precursors representing known plant miRNA families. There are 547 unique small RNA matching the miRNA precursors. We predict 37 candidate novel miRNAs from the unannotated small RNAs that could be mapped to the reference transcriptome. The expression of the selected candidates was for the first time quantified by real-time reverse transcription polymerase chain reaction. The novel miRNA m0034 turns out to be from the intron sequence of the paclitaxel biosynthetic gene taxadiene synthase. The 21 potential targets of nine novel miRNAs are also predicted. Additionally, 56 targets for known miRNA families and 15 targets for novel candidate miRNA families were identified by high-throughput degradome-sequencing approach. It is found that two paclitaxel biosynthetic genes, taxane 13α hydroxylase and taxane 2α-O-benzoyltransferase, are the cleavage targets of miR164 and miR171, respectively. This study represents the first transcriptome-based analysis of miRNAs and degradome in gymnosperms.

Hao DC ，Yang L ，Xiao PG ，Liu M ... -  《-》

Identification and expression profiling of Vigna mungo microRNAs from leaf small RNA transcriptome by deep sequencing.

MicroRNAs (miRNAs) represent a class of small non-coding RNA molecules that play a crucial role in post-transcriptional gene regulation. Several conserved and species-specific miRNAs have been characterized to date, predominantly from the plant species whose genome is well characterized. However, information on the variability of these regulatory RNAs in economically important but genetically less characterized crop species are limited. Vigna mungo is an important grain legume, which is grown primarily for its protein-rich edible seeds. miRNAs from this species have not been identified to date due to lack of genome sequence information. To identify miRNAs from V. mungo, a small RNA library was constructed from young leaves. High-throughput Illumina sequencing technology and bioinformatic analysis of the small RNA reads led to the identification of 66 miRNA loci represented by 45 conserved miRNAs belonging to 19 families and eight non-conserved miRNAs belonging to seven families. Besides, 13 novel miRNA candidates in V. mungo were also identified. Expression patterns of selected conserved, non-conserved, and novel miRNA candidates have been demonstrated in leaf, stem, and root tissues by quantitative polymerase chain reaction, and potential target genes were predicted for most of the conserved miRNAs. This information offers genomic resources for better understanding of miRNA mediated post-transcriptional gene regulation.

Paul S ，Kundu A ，Pal A 《-》

Conserved miRNA analysis in Gossypium hirsutum through small RNA sequencing.

Several miRNA family and their targets in cotton had been identified by computational methods based on the conserved characterization of miRNAs. So far, there are no experiments to validate the existence of miRNAs in cotton. In this study, to analyze the miRNAs in cotton, a small RNA library of sequences from 18 to 26 nt of Gossypium hirsutum seedling has been built by high-throughput sequencing. In this library, 34 conserved miRNA families were identified by homology search and the miRNA sequences of them were also found in the library. Furthermore, potential targets of these conserved miRNA families were predicted in cotton TC library. However, based on the mature miRNAs and their miR sequences, only 8 conserved miRNA encoding loci (miR156, miR157a, miR157b, miR162, miR164, miR393, miR399, miR827) were identified from cotton EST sequences. Multiple encoding loci of some miRNAs were identified by comparing the cloned miRNA and miR sequences.

Ruan MB ，Zhao YT ，Meng ZH ，Wang XJ ，Yang WC ... -  《-》

Deep sequencing of grapevine flower and berry short RNA library for discovery of novel microRNAs and validation of precise sequences of grapevine microRNAs deposited in miRBase.

MicroRNAs (miRNAs) are a class of non-coding RNA molecules which have significant gene regulation roles in organisms. The advent of new high-throughput sequencing technologies has enabled the discovery of novel miRNAs. Although there are two recent reports on high-throughput sequencing analysis of small RNA libraries from different organs of two wine grapevine varieties, there was a significant divergence in the number and kinds of miRNAs sequenced in these studies. More sequencing of small RNA libraries is still important for the discovery of novel miRNAs in grapevine. In this study, a total of 130 conserved grapevine Vitis vinifera miRNA (Vv-miRNA) belonging to 28 Vv-miRNA families were validated, other 80 unconserved Vv-miRNAs including 72 novel potential and 8 known but unconserved ones were found. Fifty-two (52.5%) of these 80 unconserved Vv-miRNAs exhibited differential poly(A)-tailed reverse transcriptase-polymerase chain reaction expression profiles in various grapevine tissues that could further confirm their existence in grapevine, among which 20 were expressed only in grapevine berries, indicating a degree of fruit-specificity. One hundred thirty target genes for 56 unconserved miRNAs could be predicted. The locations of these potential target genes on grapevine chromosomes and their complementary levels with the corresponding miRNAs were also analyzed. These results point to a regulatory role of miRNAs in grapevine berry development and response to various environments.

Wang C ，Wang X ，Kibet NK ，Song C ，Zhang C ，Li X ，Han J ，Fang J ... -  《-》

Transcriptome-wide identification of microRNA targets in rice.

MicroRNA (miRNA)-guided target RNA expression is vital for a wide variety of biological processes in eukaryotes. Currently, miRBase (version 13) lists 142 and 353 miRNAs from Arabidopsis and rice (Oryza sativa), respectively. The integration of miRNAs in diverse biological networks relies upon the confirmation of their RNA targets. In contrast with the well-characterized miRNA targets that are cleaved in Arabidopsis, only a few such targets have been confirmed in rice. To identify small RNA targets in rice, we applied the 'degradome sequencing' approach, which globally identifies the remnants of small RNA-directed target cleavage by sequencing the 5' ends of uncapped RNAs. One hundred and sixty targets of 53 miRNA families (24 conserved and 29 rice-specific) and five targets of TAS3-small interfering RNAs (siRNAs) were identified. Surprisingly, an additional conserved target for miR398, which has not been reported so far, has been validated. Besides conserved homologous transcripts, 23 non-conserved genes for nine conserved miRNAs and 56 genes for 29 rice-specific miRNAs were also identified as targets. Besides miRNA targets, the rice degradome contained fragments derived from MIRNA precursors. A closer inspection of these fragments revealed a unique pattern distinct from siRNA-producing loci. This attribute can serve as one of the ancillary criteria for separating miRNAs from siRNAs in plants.

Li YF ，Zheng Y ，Addo-Quaye C ，Zhang L ，Saini A ，Jagadeeswaran G ，Axtell MJ ，Zhang W ，Sunkar R ... -  《-》