Project description:Identification of defects in piRNAs and piRNA precursors Sequencing of small RNAs (18-30nt). Sample treatments: Secondary siRNAs in C. elegans carry a 5' triphosphate and this has to be removed prior to cloning, hence the use of 5' polyphosphatase treatment to reveal this population. TAP (tobacco acid pyrophosphatase) is another enzyme that removes 5' triphosphate but it also removes 5' CAP structures- we used this to look for piRNA precursor sequences in C. elegans that have a 5' cap.

Project description:RppH can faithfully replace TAP to allow cloning of 5’-triphosphate carrying small RNAs

Project description:Argonaute (AGO) proteins interact with distinct classes of small RNAs to direct multiple regulatory outcomes. In many organisms, including plants, fungi and nematodes, cellular RNAdependent RNA polymerases (RdRPs) utilize AGO targets as templates for amplification of silencing signals. Here, we show that distinct RdRPs function sequentially to produce small RNAs that target endogenous loci in C. elegans. We show that DCR-1, the RdRP RRF-3, and the dsRNA-binding protein RDE-4, are required for the biogenesis of 26nt RNAs, termed 26GRNAs, and that 26G-RNAs engage the Piwi-clade AGO, ERGO-1. Our findings support a model in which targeting by ERGO-1 recruits a second RdRP (RRF-1 or EGO-1), which in turn transcribes 22G-RNAs that interact with worm-specific AGOs (WAGOs) to direct gene silencing. ERGO-1 targets exhibit a non-random distribution in the genome and appear to include many gene duplications, suggesting that this pathway may control over-expression resulting from gene expansion. 8 samples examined. Small RNA libraries generated from: C. elegans animals.

Project description:We assessed the small RNA transcriptome of Neisseria gonorrhoeae strain MS11 in two genetic backgrounds; using wild type cells as well as cells carrying a rppH insertional mutation. It was found that the presence of the RppH enzyme affected both the quantity and length of small RNAs in various chromosomal locations. However, in comparing the two transcriptomes, we found that not all small RNAs were differentially expressed, suggesting that RppH targets only a subset of transcripts.

Project description:We assessed the small RNA transcriptome of Neisseria gonorrhoeae strain MS11 in two genetic backgrounds; using wild type cells as well as cells carrying a rppH insertional mutation. It was found that the presence of the RppH enzyme affected both the quantity and length of small RNAs in various chromosomal locations. However, in comparing the two transcriptomes, we found that not all small RNAs were differentially expressed, suggesting that RppH targets only a subset of transcripts. Analysis of the small RNA transcriptome of N. gonorrhoeae in a wild type and M-NM-^TrppH mutant background.

Project description:MicroRNAs (miRNA), discovered in C. elegans, are short non-coding RNAs that bind and regulate the expression of target mRNAs in animals and plants. C. elegans miRNAs bind to partially complementary sequences in the 3' UTR of the target mRNA, which results in translational repression through mRNA destabilization. The high-throughput sequencing of RNA cleavage fragments was performed to directly detect cleaved miRNA targets in C. elegans. Based on this analysis, miR-249 was identified as a potential miRNA that regulates a ZK637.6 pseudogene, paralogous to asna-1 (ZK637.5), by a cleavage mechanism with extensive, evolutionary conserved complementarity. Additionally, we validated miR-249-directed cleavage of the ZK637.6 by a gene-specific 5M-bM-^@M-^Y rapid amplification of cDNA ends and observed notable difference in expression of ZK637.6 in wild-type versus mir-249 mutant C. elegans. Furthermore, phosphate-independent small-RNA sequencing analysis revealed that miR-249 target genes, including ZK637.6 pseudogene, showed 22G-RNA productions dependent on miR-249 targeting. These findings may lead to a better understanding of the biological roles of miRNAs for pseudogenes in C. elegans. Total small RNAs from wild-type and mir-249 mutant in adult stage worms were subjected to small RNA sequencing using an Illumina platform with Tobacco Acid Pyrophosphatase (TAP) treatment, allowing detection of secondary siRNAs carrying 5M-bM-^@M-^Y-tri-phosphate.

Project description:The differential RNA-seq data contained within this entry is complemented by global RNA-seq. S. coelicolor and E. coli reference strains were grown in batch culture with shaking. The E. coli sample was extracted during mid-exponential growth, while the S. coelicolor sample was extracted at the start of pigmented antibiotic production. Each of the two samples was incubated with or without TAP (tobacco acid pyrophosphatase) before library construction. Thus, 4 libraries were analysed. TAP treatment allows the cloning and sequencing of 5' ends that were originally triphosphorylated.

Project description:RNA aliquots were digested with 5’-phosphate-dependent exonuclease (5'-exo) following pre-treatment with tobacco acid pyrophosphatase (TAP) to release the 5’ cap and render the RNA susceptible to 5’ exonuclease digestion (TAP+/5'-exo+). Two color array hybridizations were performed and TAP+/5'-exo+ samples were compared with TAP-/5'-exo+ control samples.

Project description:The differential RNA-seq data contained within this entry is complemented by global RNA-seq and microarray data, which is also deposited in GEO. Duplicate cultures of Propionibacterium acnes strain KPA171202 were grown exponentially in batch culture under anaerobic growth. Samples were taken following subculture with and without potassium downshift (i.e. removal from medium). This produced 4 samples; 2 replicates x 2 conditions. Aliquots of each of the 4 samples were then incubated with or without incubation TAP (tobacco acid pyrophosphatase) before library construction. Thus, 8 libraries were analysed. TAP treatment allows the cloning and sequencing of 5' ends that were originally triphosphorylated.

Project description:Cellular RdRPs play a critical role in the development of many organisms. Using high-throughput small RNA and messenger RNA sequencing we found that the Caenorhabditis elegans RdRP, EGO-1, is required to produce small RNAs antisense to a number of germline-expressed genes through several developmental stages. We found that these genes fall into distinct classes including genes required for kinetochore and nuclear pore assembly, as well as the production of histone-modifying and centromeric proteins. We also found several RNAi-related genes to be targets of EGO-1. Finally, we show a strong correlation between the loss of small RNAs and the rise of mRNA levels in ego-1 mutant animals. 5'-monophosphate-independent small RNA sequencing from ego-1(om84) and control L3, L4, and adult C. elegans hermaphrodites