Project description:hrde-1(tm1200) animals were bleached and embryos were plated on empty vector, daf-2, or pitr-1 RNAi (HT115). Animals were allowed to develop for 72 hr, after which embryos were released via bleaching and allowed to hatch in the absence of food. Arrested L1 larvae were snap frozen in liquid nitrogen ~24 hr after bleaching.

Project description:To gain insight into the pathways accounting for the deleterious effects associated with severe mitochondrial dysfunction, we compared the transcriptomic profile in control L3 larvae with that of strong (arrested) nuo-5 RNAi. We also found that the natural compound lutein was able to rescue some of the defective phenotypes we characterized in nuo-5-depleted animals therefore we compared also the transcriptomic profile of stage-matched (L3) cohorts of C. elegans upon strong nuo-5 RNAi, treated and untreated with lutein, with that of animals fed empty vector control.

Project description:RNA interference (RNAi) is a phylogenetically widespread gene silencing process triggered by doublestranded RNA (dsRNA). In plants and C. elegans, two distinct populations of small RNAs have been proposed to participate in RNAi : "Primary siRNAs" (derived from Dicer nuclease-mediated cleavage of the original trigger) and "Secondary siRNAs" (additional small RNAs whose synthesis requires an RNA-directed RNA polymerase [RdRP]). Analyzing small RNAs associated with ongoing RNAi in C. elegans, we found secondary siRNAs to comprise the vast majority. The bulk of secondary siRNAs exhibited structure and sequence indicative of a biosynthetic mode where each molecule derives from an independent de novo initiation by RdRP. Analysis of endogenous small RNAs indicated that a fraction derive from a biosynthetic mechanism that is similar to that of secondary siRNAs formed during RNAi, suggesting that small antisense transcripts derived from cellular mRNAs by RdRP activity may have key roles in cellular regulation. Keywords: C. elegans small RNA sequences from wild type animals fed on sel-1 dsRNA producing bacteria

Project description:RNA interference (RNAi) is a phylogenetically widespread gene silencing process triggered by doublestranded RNA (dsRNA). In plants and C. elegans, two distinct populations of small RNAs have been proposed to participate in RNAi : "Primary siRNAs" (derived from Dicer nuclease-mediated cleavage of the original trigger) and "Secondary siRNAs" (additional small RNAs whose synthesis requires an RNA-directed RNA polymerase [RdRP]). Analyzing small RNAs associated with ongoing RNAi in C. elegans, we found secondary siRNAs to comprise the vast majority. The bulk of secondary siRNAs exhibited structure and sequence indicative of a biosynthetic mode where each molecule derives from an independent de novo initiation by RdRP. Analysis of endogenous small RNAs indicated that a fraction derive from a biosynthetic mechanism that is similar to that of secondary siRNAs formed during RNAi, suggesting that small antisense transcripts derived from cellular mRNAs by RdRP activity may have key roles in cellular regulation. Keywords: C. elegans small RNA sequences from wild type animals fed on sel-1 dsRNA producing bacteria C. elegans small RNA sequences from wild type animals fed on sel-1 dsRNA producing bacteria

Project description:To determine mRNA expression levels in mock and cgh-1(RNAi) animals, RNA was purified from young adult worms, using Trizol.

Project description:The knowledge of the genetic architecture behind feed efficiency would allow to breed more efficient animals maximizing farm profitability and reducing the environmental impact of animal production. This study analyzes high throughput gene expression data from milk samples to determine key genes and biological mechanisms associated to feed efficiency in dairy sheep.A detailed description of the sheep management practices and calculations for the feed efficiency index (FEI) are detailed in 10.3168/jds.2020-19061. For these analyses, we selected animals with divergent FEI values from a group of 40 lactating Assaf ewes. RNA-Seq was performed on milk somatic cell samples from 8 high feed efficiency sheep (H-FE), FEI = −0.29 (SD = 0.23), RFI = −0.16 (SD = 0.25), and 8 low feed efficiency sheep (L-FE), FEI = 0.81 (SD = 0.24), RFI = 0.19 (SD = 0.24)).

Project description:Gene expression profiles of Six1/2-1(RNAi) animals and POU2/3(RNAi) animals

Project description:To determine mRNA expression levels in mock and cgh-1(RNAi) animals, RNA was purified from young adult worms, using Trizol. A total of 6 samples was analyzed (triplicates of mock and cgh-1(RNAi) animals respectively)

Project description:We developed a scalable assay permitting the simultaneous quantification of hundreds of proteins and the full transcriptome in thousands of individual cells from samples where cell number is limiting. The RNA Expression and Protein Sequencing assay (REAP-seq) uses DNA-labeled antibodies to permit DNA sequencing of both mRNA and antibodies in a single workflow using droplet microfluidics. We describe the development and validation of REAP-seq in human PBMCs, and use the assay to assess the costimulatory effects of an anti-CD27 agonist antibody in naïve CD8+ lymphocytes. Protein quantification using REAP-seq was more sensitive than parallel mRNA measurements and differentiated cell states with fewer analytes. Unbiased profiling of single cells without prior selection enabled identification and characterization of an unexpected cell type that would have been missed with population-averaged profiling methodologies.

Project description:Gene expression profiles of Fir1 (RNAi) animals