The Lingulodinium circadian system lacks rhythmic changes in transcript abundance

Roy, Sougata; Beauchemin, Mathieu; Dagenais-Bellefeuille, Steve; Létourneau, Louis; Cappadocia, Mario; Morse, David

doi:10.1186/s12915-014-0107-z

Cited by 40 publications

(46 citation statements)

References 46 publications

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“…polyedrum , a species where the circadian clock regulates gene expression post-transcriptionally [6]. Northern blots using a highly expressed miRNA sequence from S .…”

Section: Resultsmentioning

confidence: 99%

“…The number of scintillons [3], as well as the cellular levels of both luciferase [4] and LBP [5] all correlate with the bioluminescence capacity of the cells. The regulation of both luciferase and LBP synthesis occurs at a translational level since mRNA levels for both are constant [5, 6]. The mechanism for this is still unclear, however, as there are conflicting reports concerning the action of an inhibitory protein binding to cis-acting sequences in lbp RNA during the day phase [7, 8].…”

Section: Introductionmentioning

confidence: 99%

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miRNAs Do Not Regulate Circadian Protein Synthesis in the Dinoflagellate Lingulodinium polyedrum

Dagenais-Bellefeuille

Beauchemin

Morse

2017

PLoS ONE

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Dinoflagellates have been shown to express miRNA by bioinformatics and RNA blot (Northern) analyses. However, it is not yet known if miRNAs are able to alter gene expression in this class of organisms. We have assessed the possibility that miRNA may mediate circadian regulation of gene expression in the dinoflagellate Lingulodinium polyedrum using the Luciferin Binding Protein (LBP) as a specific example. LBP is a good candidate for regulation by miRNA since mRNA levels are constant over the daily cycle while protein synthesis is restricted by the circadian clock to a period of several hours at the start of the night phase. The transcriptome contains a potential DICER and an ARGONAUTE, suggesting the machinery for generating miRNAs is present. Furthermore, a probe directed against an abundant Symbiodinium miRNA cross reacts on Northern blots. However, L. polyedrum has no small RNAs detectable by ethidium bromide staining, even though higher plant miRNAs run in parallel are readily observed. Illumina sequencing of small RNAs showed that the majority of reads did not have a match in the L. polyedrum transcriptome, and those that did were almost all sense strand mRNA fragments. A direct search for 18–26 nucleotide long RNAs capable of forming duplexes with a 2 base 3’ overhang detected 53 different potential miRNAs, none of which was able to target any of the known circadian regulated genes. Lastly, a microscopy-based test to assess synthesis of the naturally fluorescent LBP in single cells showed that neither double-stranded nor antisense lbp RNA introduced into cells by microparticle bombardment prior to the time of LBP synthesis were able to reduce the amount of LBP produced. Taken together, our results indicate that circadian control of protein synthesis in L. polyedrum is not mediated by miRNAs.

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“…polyedrum , a species where the circadian clock regulates gene expression post-transcriptionally [6]. Northern blots using a highly expressed miRNA sequence from S .…”

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

miRNAs Do Not Regulate Circadian Protein Synthesis in the Dinoflagellate Lingulodinium polyedrum

Dagenais-Bellefeuille

Beauchemin

Morse

2017

PLoS ONE

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“…We were also curious about the degree to which RNA and protein levels were correlated in the dinoflagellate Lingulodinium , as this species has daily changes in protein synthesis rates but does not alter RNA levels to accomplish this . We thus predicted that the correlation between the two might be on the low side compared to what has been observed in other systems.…”

Section: Resultsmentioning

confidence: 99%

“…Protein levels are estimated from ion intensities; when more than three peptides are present for a single protein, protein levels are determined using the three most abundant peptide ion intensities. Correlations to RNA levels determined previously using RNA Seq data were evaluated using the ggpubr package in R.…”

Section: Methodsmentioning

confidence: 99%

Refining Transcriptome Gene Catalogs by MS‐Validation of Expressed Proteins

et al. 2018

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Protein sequence identification by tandem mass spectroscopy (LC-MS/MS) identifies thousands of protein sequences even in complex mixtures, and provides valuable insight into the biological functions of different cells. For non-model organisms, transcriptomes are generally used to allow peptide identification, an important addition to their use as a gene catalog allowing the potential metabolic activities of cells to be determined. We used LC-MS/MS data to identify which of the six possible reading frames in the transcriptome was actually used by the cell to make protein, and asked whether this would have an impact on downstream analyses using the dataset. We combined results from several LC-MS/MS experiments designed to identify peptide sequences in extracts from the dinoflagellate Lingulodinium polyedra using a 74 655-sequence transcriptome. We compiled a list of 6628 translated nucleic acid sequences that contained the ensemble of peptide matches (termed MS-validated sequences) and assessed the similarity in downstream analyses between this data set and the 6628 nucleic acid sequences from which they were derived. When compared with BLASTx analyses of the DNA sequences, the MS-validated protein-sequences-analyzed using BLASTp showed differences in gene ontology, had more identified BLAST hits, and contained more KEGG pathway enzymes. The MS-validated protein sequences also differ from datasets containing longest open reading frame (ORF) protein sequences. We also note a poor correlation between the levels of protein and mRNA abundance, a comparison not previously performed for dinoflagellates. The differences observed between analyses of MS-validated protein sequence and nucleic acid sequence datasets suggest use of the former may provide a more accurate representation of cellular capacity than the latter. Developing MS-validated protein sequence datasets may also speed interpretation of MS-MS spectra in bottom up proteomics experiments.

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“…The transcriptional rhythms in Nannochloropsis species could also be controlled by a damped oscillator. The dinoflagelate Lingulodium , a model of early circadian studies due to its robust endogenous bioluminescece rhythms, does not appear to have strong RNA oscillations under constant light conditions (Roy et al , 2014) although it does display rhythms in protein synthesis (Morse et al , 1989, Morse et al , 1990). Future studies will reveal the role of posttranscriptional regulation of the circadian rhythms in the Nannochloropsis genus.…”

Section: Discussionmentioning

confidence: 99%

Identification of circadian rhythms inNannochloropsisspecies using bioluminescence reporter lines

Poliner

Cummings

Newton

et al. 2019

Preprint

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32Circadian clocks allow organisms to predict environmental changes caused by the rotation of the 33 Earth. Although circadian rhythms are widespread among different taxa, the core components of 34 circadian oscillators are not conserved and differ between bacteria, plants, animals and fungi. 35Stramenopiles are a large group of organisms in which circadian rhythms have been only poorly 36 characterized and no clock components have been identified. We have investigated cell division 37 and molecular rhythms in Nannochloropsis species. In the four strains tested, cell division 38 occurred principally during the night period under diel conditions, however, rhythms dampened 39 within 2-3 days after transfer to constant light. We developed firefly luciferase reporters for 40 long-term monitoring of in vivo transcriptional rhythms in two Nannochlropsis species, N. 41 oceanica CCMP1779 and N. salina CCMP537. The reporter lines express free-running 42 bioluminescence rhythms with periods of ~21-31 h that dampen within ~3-4 days under constant 43 light. Using different entrainment regimes, we demonstrate that these rhythms are regulated by a 44 circadian-type oscillator. In addition, the phase of free-running luminescence rhythms can be 45 modulated pharmacologically using a CK1 e/d inhibitor, suggesting a role of this kinase in the 46 Nannochloropsis clock. Together with the molecular and genomic tools available for 47 Nannochloropsis species, these reporter lines represent an excellent system for future studies on 48 the molecular mechanisms of stramenopile circadian oscillators. 49 50 Significance statement 51Stramenopiles are a large and diverse line of eukaryotes in which circadian rhythms have been 52 only poorly characterized and no clock components have been identified. We have developed 53 bioluminescence reporter lines in Nannochloropsis species and provide evidence for the presence 54 of a circadian oscillator in stramenopiles; these lines will serve as tools for future studies to 55 uncover the molecular mechanisms of circadian oscillations in these species. 56 57

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The Lingulodinium circadian system lacks rhythmic changes in transcript abundance

Cited by 40 publications

References 46 publications

miRNAs Do Not Regulate Circadian Protein Synthesis in the Dinoflagellate Lingulodinium polyedrum

miRNAs Do Not Regulate Circadian Protein Synthesis in the Dinoflagellate Lingulodinium polyedrum

Refining Transcriptome Gene Catalogs by MS‐Validation of Expressed Proteins

Identification of circadian rhythms inNannochloropsisspecies using bioluminescence reporter lines

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