Project description:Background Protein synthesis is a highly energy demanding process and is regulated according to energy availability in plant cells. Light and sugar availability affect mRNA translation but the specific roles of these factors remain unclear. In this study, sucrose was applied to Arabidopsis seedlings kept in the light or in the dark, in order to distinguish sucrose and light effects on transcription and translation. These were studied using microarray analysis of steady state mRNA and mRNA bound to translating ribosomes. Results Steady state mRNA levels were affected differently by sucrose in the light and in the dark but general translation increased to a similar extend in both conditions. Alterations in polysomal mRNA association closely followed the changes induced on the transcript level. However, for 243 mRNAs, a change in ribosome occupancy was observed after sucrose treatment in the light, but not in the dark condition. Many of these mRNAs are annotated as encoding ribosomal proteins, supporting specific translational regulation of this group of transcripts. Unexpectedly, the numbers of ribosomes bound to each mRNA decreased for mRNAs with increased ribosome occupancy. Conclusions Our results suggest that sucrose regulate translation of these 243 mRNAs but specifically in the light, through a novel regulatory mechanism. Our data sows that increased polysomal association is not necessarily leading to more ribosomes per transcript, suggesting a mechanism of translational induction not solely dependent on increased translation initiation rates. Four different samples groups were used: Control, Darkness, Sucrose, Simultaneous Darkness and sucrose treatments. All sample groups was represented by both total mRNA hybridization and of mRNAs from polysomal enrichment. All sample groups were represented by three biological replicates.

Project description:We use mRNA-seq in combination with polysome profiling to determine translational status for all mRNAs in Drosophila mature oocytes and activated eggs. Puromycin-treated lysates are used as a negative control in polysome profiling experiments. Additionally, we use ribosome footprinting to globally measure translational efficiency of mRNAs in wild type mature oocytes as well as wild type and png mutant activated eggs. Lysates of hand-dissected Drosophila mature oocytes (containing ~540 M-NM-<g of total RNA) were subjected to separation by velocity sedimentation through sucrose gradients. In this way, free mRNAs (present in RNPs fraction) or those comigrating with ribosomal subunits (40S or 60S+80S fractions) or with varying numbers of bound ribosomes (low polysomes (2-4 ribosomes), medium polysomes (5-9 ribosomes), and heavy polysomes (more than 10 ribosomes) can be separated based on their size and collected as sucrose gradient fractions. To compare quantitatively the levels of every mRNA across the polysome gradient fractions, we added 5ng of S. cerevisiae mRNA as an exogenous spike-in to each of the six fractions of interest: RNPs, 40S, 60S+80S, low polysomes, medium polysomes and heavy polysomes. RNA was extraced from these fractions, follwing proteinase K treatment, by hot acid phenol method. In case of unfractionated lysates, RNA was extracted using TRIzol (Invitrogen) according to manufacturerM-bM-^@M-^Ys instructions. mRNA-seq samples were prepared from 1 M-NM-<g of total RNA (in case of sucrose gradient fractions and unfractionated lysates) and subject to Illumina based sequencing. Puromycin-treated lysates of mature oocytes or 0-2h Drosophila activated eggs (containing ~540 M-NM-<g of total RNA) were also subjected to separation by velocity sedimentation through sucrose gradients. Puromycin causes premature termination of elongating ribosomes and thus it can be used to determine whether the mRNAs co-sedimenting with the polysomal peaks (defined here as M-bM-^IM-%5 ribosomes) were actively engaged in translation. As an independent approach to assess translation and obtain information on the position of ribosomes on mRNAs, we employed ribosome footprinting. In addition to analyzing the same samples, as by polysome profiling, we also analyzed png mutant activated eggs by ribosome footprinting. Ribosome footprint profiling measures the number of ribosome-protected fragments (RPFs) derived from the mRNAs of each gene, resulting in a singular value of translational efficiency (TE) for each gene (TE=RPF/RNA).

Project description:We present a genome-wide assessment of small open reading frames (smORF) translation by ribosomal profiling of polysomal fractions in Drosophila S2 cell. In this way, mRNAs bound by multiple ribosomes and hence actively translated can be isolated and distinguished from mRNAs bound by sporadic, putatively non-productive single ribosomes or ribosomal subunits. Ribosomal profiling of large and small polysomal fractions in Drosophila S2 cells to assess translation of smORFs

Project description:Light, an important environmental factor regulates most of plant physiology and development. In the photomorphogenic stage, light globally enhances translation status in de-etiolating Arabidopsis seedlings. More than 1500 genes showed increased translation but not transcription in this developmental process. This implies these mRNAs are translationally repressed in dark-grown seedlings. Through transcriptome and translatome comparisons, we revealed that p-bodies attenuate the translation of mRNAs in the etiolated seedlings. We found hundreds of mRNAs accumulated and also increased translation for thousands of genes in dark-grown dcp5-1, including genes known to regulate the transition from skotomorphogenesis to photomorphogenesis. Our data reports p-bodies regulate both RNA stability and attenuation of translation for specific mRNAs in the dark.

Project description:To understand the contribution of the RPL24B protein, a component of the large 60S ribosomal subunit, to the translation of specific mRNAs, we compared the ribosome occupancy of mRNAs in wild type Arabidopsis and the rpl24b/stv1-1 T-DNA insertion mutant. RNA was fractionated using sucrose gradients into polysomal and nonpolysomal RNAs. We also determined overall total transcript levels. We used Affymetrix ATH1 microarrays. Each plant sample was analyzed for the mRNA abundance in total mRNA, polysomal mRNA, and nonpolysomal mRNA. Three biological replicates were collected. The rpl24b mutant was compared with wild type.

Project description:au14-10_wd40 - effet of light on translatome of arabidopsis seeds during germination - Does light regulates germination via polysome association ? - At harvest seeds are dormant.They stay dormant if stored at -20°C.A.Th dormant seeds dont germinate at 25°C in darkness.Total RNA and polysomal RNA (polysomal fractions purified on sucrose gradients)were extracted from imbibed seeds for 20h at 22°C in darkness and light(3 biological replicates). Transcriptome and translatome are compared for light vs dark for 20h of imbibition. In silico comparison will allow to compare transcriptome and translatome for each type of sample.

Project description:Sucrose gradient ultracentrifugation followed by microarray analysis was used to identify translationally-regulated mRNAs (mRNAs associated with ribosomes) from JFH1-infected and uninfected Huh-7.5.1 cells. Huh7 cells were infected with HCV JFH-1 strain. Controls consisted in non-infected cells and infected cells treated with an anti-protease. 3 days after infection, cell lysates were subjected to sucrose-gradient centrifugation in order to isolate polysome-free RNAs from polysome-bound (translated) RNAs. The non-polysomal, polysomal as well as cytosolic (non fractionned) RNAs, from infected, non-infected, and infected-treated cells were subject sur microarray analysis.

Project description:We present a genome-wide assessment of small open reading frames (smORF) translation by ribosomal profiling of polysomal fractions in Drosophila S2 cell. In this way, mRNAs bound by multiple ribosomes and hence actively translated can be isolated and distinguished from mRNAs bound by sporadic, putatively non-productive single ribosomes or ribosomal subunits.

Project description:To understand the contribution of the poly(A)binding protein to the translation of specific mRNAs, we compared the ribosome occupancy of mRNAs in wild type Arabidopsis and pab2 pab8 double mutant seedlings. The mutants continue to express the PAB4 paralog of PABP. RNA was fractionated using sucrose gradients into polysomal and nonpolysomal RNAs. We also determined overall total transcript levels. We used Affymetrix ATH1 microarrays. Each plant sample was analyzed for the mRNA abundance in total mRNA (T), polysomal mRNA (PL), and nonpolysomal mRNA (NP). Four biological replicates were collected for polysomes and three for total RNA. The pab2 pab8 double mutant was compared with wild type.

Project description:This study is complementary to the "Genome-wide analysis of host mRNA translation during hepatitis C virus infection" study (GSE44210), for which sucrose gradient ultracentrifugation followed by microarray analysis was used to identify translationally-regulated mRNAs (mRNAs associated with ribosomes) from JFH1-infected and uninfected Huh-7.5.1 cells. MicroRNA arrays have been conducted in parallel on total RNA from infected and uninfected cells, in order to determine if microRNA regulation could explain some of the mRNA translation regulations.