An update on aureochromes: Phylogeny – mechanism – function

Kroth, Peter G.; Wilhelm, Christian; Kottke, Tilman

doi:10.1016/j.jplph.2017.06.010

Cited by 45 publications

(35 citation statements)

References 71 publications

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“…This is reminiscent of circadian gene expression patterns visualized in plant and other algal lineages (e.g., the green alga Ostreococcus and the dinoflagellate Lingulodinium), in which photosynthesis and plastid biogenesis proteins are either expressed at separate times of the day, or show different regulatory responses to circadian and light signals (Wang et al, 2005;Monnier et al, 2010;Noordally et al, 2013). Finally, the gene encoding the Aureochrome 2 protein (Phatr3_J8113), which lacks the conserved flavin-binding domain required for light perception (Takahashi et al, 2007;Kroth et al, 2017), falls within the greenyellow merged module of generally transcriptionally repressed proteins (Figure 3), underlining its independence of chloroplast functions.…”

Section: Transcriptional Regulators Of Chloroplast-targeted Proteins mentioning

confidence: 95%

PhaeoNet: A Holistic RNAseq-Based Portrait of Transcriptional Coordination in the Model Diatom Phaeodactylum tricornutum

et al. 2020

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Transcriptional coordination is a fundamental component of prokaryotic and eukaryotic cell biology, underpinning the cell cycle, physiological transitions, and facilitating holistic responses to environmental stress, but its overall dynamics in eukaryotic algae remain poorly understood. Better understanding of transcriptional partitioning may provide key insights into the primary metabolism pathways of eukaryotic algae, which frequently depend on intricate metabolic associations between the chloroplasts and mitochondria that are not found in plants. Here, we exploit 187 publically available RNAseq datasets generated under varying nitrogen, iron and phosphate growth conditions to understand the co-regulatory principles underpinning transcription in the model diatom Phaeodactylum tricornutum. Using WGCNA (Weighted Gene Correlation Network Analysis), we identify 28 merged modules of co-expressed genes in the P. tricornutum genome, which show high connectivity and correlate well with previous microarray-based surveys of gene co-regulation in this species. We use combined functional, subcellular localization and evolutionary annotations to reveal the fundamental principles underpinning the transcriptional co-regulation of genes implicated in P. tricornutum chloroplast and mitochondrial metabolism, as well as the functions of diverse transcription factors underpinning this co-regulation. The resource is publically available as PhaeoNet, an advanced tool to understand diatom gene co-regulation.

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Section: Transcriptional Regulators Of Chloroplast-targeted Proteins mentioning

confidence: 95%

PhaeoNet: A Holistic RNAseq-Based Portrait of Transcriptional Coordination in the Model Diatom Phaeodactylum tricornutum

et al. 2020

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“…Nannochloropsis oceanica encodes for three aureochrome genes (Vieler et al, 2012). Aureochromes are stramenopile-specific photoreceptors that have been shown to be involved in blue light-mediated photomorphogenesis in the Vaucheria genus and in the induction of cell division by blue light in diatoms (Takahashi et al, 2007;Kroth et al, 2017). Marine waters are enriched in blue light as light of longer wavelengths cannot penetrate water efficiently (Ragni and Ribera D'Alcal a, 2004;Kirk, 2011), and therefore blue light is likely to play a key role in signaling in marine organisms.…”

Section: Discussionmentioning

confidence: 99%

Identification of circadian rhythms in Nannochloropsis species using bioluminescence reporter lines

et al. 2019

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Utilization of microalgae has been hampered by limited tools for creating loss-of-function mutants. Furthermore, modified strains for deployment into the field must be free of antibiotic resistance genes and face fewer regulatory hurdles if they are transgene free. The oleaginous microalga, Nannochloropsis oceanica CCMP1779, is an emerging model for microalgal lipid metabolism. We present a one-vector episomal CRISPR/Cas9 system for N. oceanica that enables the generation of marker-free mutant lines. The CEN/ARS6 region from Saccharomyces cerevisiae was included in the vector to facilitate its maintenance as circular extrachromosal DNA. The vector utilizes a bidirectional promoter to produce both Cas9 and a ribozyme flanked sgRNA. This system efficiently generates targeted mutations, and allows the loss of episomal DNA after the removal of selection pressure, resulting in marker-free non-transgenic engineered lines. To test this system, we disrupted the nitrate reductase gene (NR) and subsequently removed the CRISPR episome to generate non-transgenic marker-free nitrate reductase knockout lines (NR-KO).

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“…N. oceanica encodes for three Aureochrome genes (Vieler et al , 2012). Aureochromes are stramenopile specific photoreceptors that have been shown to be involved in blue light mediated photomorphogenesis in the Vaucheria genus and in the induction of cell division by blue light in diatoms (Kroth et al , 2017, Takahashi et al , 2007). Marine waters are enriched in blue light since light of longer wave lengths cannot penetrate water efficiently (Kirk 2011, Ragni and Ribera D’Alcalà 2004) and therefore blue light is likely to play a key role in signaling in marine organisms.…”

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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An update on aureochromes: Phylogeny – mechanism – function

Cited by 45 publications

References 71 publications

PhaeoNet: A Holistic RNAseq-Based Portrait of Transcriptional Coordination in the Model Diatom Phaeodactylum tricornutum

PhaeoNet: A Holistic RNAseq-Based Portrait of Transcriptional Coordination in the Model Diatom Phaeodactylum tricornutum

Identification of circadian rhythms in Nannochloropsis species using bioluminescence reporter lines

Identification of circadian rhythms inNannochloropsisspecies using bioluminescence reporter lines

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