Genomewide transcriptional reprogramming in the seagrass <i>Cymodocea nodosa</i> under experimental ocean acidification

Ruocco, Miriam; Musacchia, Francesco; Olivé, Irene; Costa, Monya M.; Barrote, Isabel; Santos, Rui; Sanges, Remo; Procaccini, Gabriele; Silva, João

doi:10.1111/mec.14204

Cited by 22 publications

(25 citation statements)

References 166 publications

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“…Saying that, studies on seagrass eco-physiology at these CO 2 seeps have provided mixed results, for example, Posidonia oceanica antioxidant stress related genes are more expressed near volcanic seeps (at Panarea and Ischia Islands, Italy), whereas the expression of genes involved in photosynthesis and growth responses of Cymodocea nodosa near a seep off Vulcano islands, Italy were contrary to the expected beneficial effects of CO 2 (Olivé et al, 2017). On the other hand, under experimental CO 2 enrichment there was a significant increased expression of C. nodosa transcripts associated with photosynthesis, as expected (Ruocco et al, 2017).…”

Section: Introductionsupporting

confidence: 82%

Elevated trace elements in Posidonia oceanica and Cymodocea nodosa at six Mediterranean volcanic seeps

Mishra

Santos

2018

Preprint

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Seagrasses form important habitats around shallow marine CO 2 seeps, providing opportunities to assess trace element (TE) accumulation along gradients in seawater pH.Here we assessed Cd, Cu, Hg, Ni, Pb and Zn levels in sediment and seagrasses at six CO 2 seeps and reference sites off Italy and Greece. Some seep sediments had much higher concentrations of TEs, the extreme example being Cd at 43-fold above reference levels.Sediment Quality Guideline (SQG) scores indicated that three seeps had sediment TEs levels likely to have "Adverse impacts" on marine biota; namely Vulcano (for Hg), Ischia (for Cu) and Paleochori (for Cd and Ni). SQG indicated seep sediments of Italian seeps were adversely affected by Cu and Hg, whereas Greek CO 2 seeps were affected by Cd and Ni. An increase in sediment TEs levels positively corelated with higher levels of TEs in seagrass roots of Posidonia oceanica (Zn and Ni) and Cymodocea nodosa (Zn). Differences in the bioavailability and possible toxicity of TEs helps explain why seagrasses were abundant at some CO 2 seeps but not others.

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Section: Introductionsupporting

confidence: 82%

Elevated trace elements in Posidonia oceanica and Cymodocea nodosa at six Mediterranean volcanic seeps

Mishra

Santos

2018

Preprint

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“…Here, we provided a first inventory of these genes in marine plants in terms of the presence/absence and expression patterns across species and under different conditions. We screened the protein complement of the Z. marina genome, the first seagrass species for which a full genome sequence has been obtained [ 51 ], and the one of a previously published transcriptome of C. nodosa [ 58 ], together with the protein complement of Arabidopsis thaliana and Oryza sativa genomes, to identify writer and eraser proteins through a comparative approach. The comparative analysis of all the considered species led to the construction of networks of ortholog and paralog proteins.…”

Section: Resultsmentioning

confidence: 99%

“…Dedicated analyses (by multiple alignments, data not shown) confirmed that similar copies from C. nodosa sequences included in the considered networks have to be considered as products of alternative transcripts that are worth being further investigated as a result of the already published transcriptome assembly [ 58 ].…”

Section: Resultsmentioning

confidence: 99%

“…Protein collections for C. nodosa , A. thaliana , O. sativa, and Z. marina were downloaded from ENA [ 58 ], TAIR [ 63 ], TIGR [ 64 ], and ORCAE [ 50 ] databases, respectively. The networks of orthologs and paralogs were predicted by using a python software developed according to the pipeline described in two works that were already published [ 65 , 66 ].…”

Section: Methodsmentioning

confidence: 99%

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m6A RNA Methylation in Marine Plants: First Insights and Relevance for Biological Rhythms

Ruocco

Ambrosino

Jahnke

et al. 2020

IJMS

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Circadian regulations are essential for enabling organisms to synchronize physiology with environmental light-dark cycles. Post-transcriptional RNA modifications still represent an understudied level of gene expression regulation in plants, although they could play crucial roles in environmental adaptation. N6-methyl-adenosine (m6A) is the most prevalent mRNA modification, established by “writer” and “eraser” proteins. It influences the clockwork in several taxa, but only few studies have been conducted in plants and none in marine plants. Here, we provided a first inventory of m6A-related genes in seagrasses and investigated daily changes in the global RNA methylation and transcript levels of writers and erasers in Cymodocea nodosa and Zostera marina. Both species showed methylation peaks during the dark period under the same photoperiod, despite exhibiting asynchronous changes in the m6A profile and related gene expression during a 24-h cycle. At contrasting latitudes, Z. marina populations displayed overlapping daily patterns of the m6A level and related gene expression. The observed rhythms are characteristic for each species and similar in populations of the same species with different photoperiods, suggesting the existence of an endogenous circadian control. Globally, our results indicate that m6A RNA methylation could widely contribute to circadian regulation in seagrasses, potentially affecting the photo-biological behaviour of these plants.

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“…Although only one (of the TAR/Tork lineage) over 180 LTR-REs resulted significantly over-expressed in heat-treated than in control plants, it cannot be excluded that retrotransposon expression in meadows subjected to environmental constraints can increase, since environmental stresses often induce transposable element transcription, as observed in another seagrass, Cymodocea nodosa, under experimental acidification [72]. Such an activity might produce genetic and epigenetic variations, which could be selected in those environments.…”

Section: Discussionmentioning

confidence: 99%

Low Long Terminal Repeat (LTR)-Retrotransposon Expression in Leaves of the Marine Phanerogam Posidonia Oceanica L.

Vangelisti

Mascagni

Usai

et al. 2020

Life

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Seagrasses as Posidonia oceanica reproduce mostly by vegetative propagation, which can reduce genetic variability within populations. Since, in clonally propagated species, insurgence of genetic variability can be determined by the activity of transposable elements, we have estimated the activity of such repeat elements by measuring their expression level in the leaves of plants from a Mediterranean site, for which Illumina complementary DNA (cDNA) sequence reads (produced from RNAs isolated by leaves of plants from deep and shallow meadows) were publicly available. Firstly, we produced a collection of retrotransposon-related sequences and then mapped Illumina cDNA reads onto these sequences. With this approach, it was evident that Posidonia retrotransposons are, in general, barely expressed; only nine elements resulted transcribed at levels comparable with those of reference genes encoding tubulins and actins. Differences in transcript abundance were observed according to the superfamily and the lineage to which the retrotransposons belonged. Only small differences were observed between retrotransposon expression levels in leaves of shallow and deep Posidonia meadow stands, whereas one TAR/Tork element resulted differentially expressed in deep plants exposed to heat. It can be concluded that, in P. oceanica, the contribution of retrotransposon activity to genetic variability is reduced, although the nine specific active elements could actually produce new structural variations.

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Genomewide transcriptional reprogramming in the seagrass Cymodocea nodosa under experimental ocean acidification

Cited by 22 publications

References 166 publications

Elevated trace elements in Posidonia oceanica and Cymodocea nodosa at six Mediterranean volcanic seeps

Elevated trace elements in Posidonia oceanica and Cymodocea nodosa at six Mediterranean volcanic seeps

m6A RNA Methylation in Marine Plants: First Insights and Relevance for Biological Rhythms

Low Long Terminal Repeat (LTR)-Retrotransposon Expression in Leaves of the Marine Phanerogam Posidonia Oceanica L.

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