Publikation: Hypoxia as a physiological cue and pathological stress for coral larvae
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Datum
2022
Autor:innen
Pernice, Mathieu
Hughes, David J
Harrison, Peter L
Boulotte, Nadine
Chartrand, Katie
Kühl, Michael
Suggett, David J
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Core Facility der Universität Konstanz
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Published
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Molecular Ecology. Wiley. 2022, 31(2), pp. 571-587. ISSN 0962-1083. eISSN 1365-294X. Available under: doi: 10.1111/mec.16259
Zusammenfassung
Ocean deoxygenation events are intensifying worldwide and can rapidly drive adult corals into a state of metabolic crisis and bleaching-induced mortality, but whether coral larvae are subject to similar stress remains untested. We experimentally exposed apo-symbiotic coral larvae of Acropora selago to deoxygenation stress with subsequent reoxygenation aligned to their night-day light cycle, and followed their gene expression using RNA-Seq. After 12 h of deoxygenation stress (~2 mg O2 /L), coral planulae demonstrated a low expression of HIF-targeted hypoxia response genes concomitant with a significantly high expression of PHD2 (a promoter of HIFα proteasomal degradation), similar to corresponding adult corals. Despite exhibiting a consistent swimming phenotype compared to control samples, the differential gene expression observed in planulae exposed to deoxygenation-reoxygenation suggests a disruption of pathways involved in developmental regulation, mitochondrial activity, lipid metabolism, and O2 -sensitive epigenetic regulators. Importantly, we found that treated larvae exhibited a disruption in the expression of conserved HIF-targeted developmental regulators, for example, Homeobox (HOX) genes, corroborating how changes in external oxygen levels can affect animal development. We discuss how the observed deoxygenation responses may be indicative of a possible acclimation response or alternatively may imply negative latent impacts for coral larval fitness.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
570 Biowissenschaften, Biologie
Schlagwörter
coral, development, gene expression profiling, hypoxia, RNA-Seq
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ALDERDICE, Rachel, Mathieu PERNICE, Anny CÁRDENAS, David J HUGHES, Peter L HARRISON, Nadine BOULOTTE, Katie CHARTRAND, Michael KÜHL, David J SUGGETT, Christian R. VOOLSTRA, 2022. Hypoxia as a physiological cue and pathological stress for coral larvae. In: Molecular Ecology. Wiley. 2022, 31(2), pp. 571-587. ISSN 0962-1083. eISSN 1365-294X. Available under: doi: 10.1111/mec.16259BibTex
@article{Alderdice2022-01Hypox-55650,
year={2022},
doi={10.1111/mec.16259},
title={Hypoxia as a physiological cue and pathological stress for coral larvae},
number={2},
volume={31},
issn={0962-1083},
journal={Molecular Ecology},
pages={571--587},
author={Alderdice, Rachel and Pernice, Mathieu and Cárdenas, Anny and Hughes, David J and Harrison, Peter L and Boulotte, Nadine and Chartrand, Katie and Kühl, Michael and Suggett, David J and Voolstra, Christian R.}
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<dcterms:abstract xml:lang="eng">Ocean deoxygenation events are intensifying worldwide and can rapidly drive adult corals into a state of metabolic crisis and bleaching-induced mortality, but whether coral larvae are subject to similar stress remains untested. We experimentally exposed apo-symbiotic coral larvae of Acropora selago to deoxygenation stress with subsequent reoxygenation aligned to their night-day light cycle, and followed their gene expression using RNA-Seq. After 12 h of deoxygenation stress (~2 mg O<sub>2</sub> /L), coral planulae demonstrated a low expression of HIF-targeted hypoxia response genes concomitant with a significantly high expression of PHD2 (a promoter of HIFα proteasomal degradation), similar to corresponding adult corals. Despite exhibiting a consistent swimming phenotype compared to control samples, the differential gene expression observed in planulae exposed to deoxygenation-reoxygenation suggests a disruption of pathways involved in developmental regulation, mitochondrial activity, lipid metabolism, and O<sub>2</sub> -sensitive epigenetic regulators. Importantly, we found that treated larvae exhibited a disruption in the expression of conserved HIF-targeted developmental regulators, for example, Homeobox (HOX) genes, corroborating how changes in external oxygen levels can affect animal development. We discuss how the observed deoxygenation responses may be indicative of a possible acclimation response or alternatively may imply negative latent impacts for coral larval fitness.</dcterms:abstract>
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