Results 121 to 130 of about 4,943 (218)
Preparation of Symbiodiniaceae for cryopreservation and laser-warming v1
, 2022 This protocol is used to prepare Symbiodiniaceae samples for cryopreservation, specifically for vitrification and laser-warming. It uses Symbiodiniaceae freshly extracted from scleractinian corals as described here. The materials listed here are for 45 blades of encapsulated Symbiodiniaceae.
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Manipulation of coral photosymbionts for enhancing resilience to environmental change [PDF]
, 2019 Ocean warming is occurring at an unprecedented rate. Only a small increase in seawater temperature can disrupt the symbiotic relationship between corals and their photosynthetic algae causing coral bleaching.
Chakravarti, Leela J.
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Diel transcriptional responses of coral-Symbiodiniaceae holobiont to elevated temperature
Communications BiologyAbstractCoral exhibits diel rhythms in behavior and gene transcription. However, the influence of elevated temperature, a key factor causing coral bleaching, on these rhythms remains poorly understood. To address this, we examined physiological, metabolic, and gene transcription oscillations in the Acropora tenuis-Cladocopium sp.
Sanqiang Gong +7 more
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Biology Open, 2019 Coral reefs are in global decline mainly due to increasing sea surface temperatures triggering coral bleaching. Recently, high salinity has been linked to increased thermotolerance and decreased bleaching in the sea anemone coral model Aiptasia. However,
Hagen M. Gegner +8 more
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Functional analyses of bacterial genomes found in Symbiodiniaceae genome assemblies
Environmental Microbiology ReportsAbstract Bacterial–algal interactions strongly influence marine ecosystems. Bacterial communities in cultured dinoflagellates of the family Symbiodiniaceae have been characterized by metagenomics. However, little is known about whole‐genome analysis of marine bacteria associated with these dinoflagellates.
Eiichi Shoguchi +3 more
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Applied and Environmental MicrobiologyThe thermal bleaching percentage of coral holobionts shows interspecific differences under heat-stress conditions, which are closely related to the coral-associated microbiome.
Biao Chen +8 more
semanticscholar +1 more source
Lost in the dark: Antipatharia-Symbiodiniaceae association in the deep waters of the Red Sea
Frontiers in Marine ScienceBlack corals (Hexacorallia: Antipatharia) are a major component of mesophotic and deep marine ecosystems. Due to their preference for light deprived environments, black corals have historically been considered azooxanthellate, yet recent works have found
Silvia Vicario +23 more
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Environnmental Influences on Caribbean Octocoral-Symbiodiniaceae Symbioses [PDF]
, 2019 A Caribbean octocoral colony is an assemblage of the octocoral host, dinoflagellate algae (family Symbiodiniaceae), bacteria and other microbes, together functioning as meta-organism (holobiont).
McCauley, Mark
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Whole-genome duplication in an algal symbiont bolsters coral heat tolerance. [PDF]
The algal endosymbiont Durusdinium trenchii enhances the resilience of coral reefs under thermal stress. D. trenchii can live freely or in endosymbiosis, and the analysis of genetic markers suggests that this species has undergone whole-genome ...
Abbriano, RM +11 more
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異なる空間・環境に生息するイワスナギンチャク(Palythoa tuberculosa)の共生藻 (Symbiodiniaceae)の多様性に関する研究 [PDF]
, 2020 学位論文博士(理学)http://purl.org/coar/resource_type ...
Wee, Hin Boo
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