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Metatranscriptomic Analysis of Corals Inoculated With Tolerant and Non-Tolerant Symbiont Exposed to High Temperature and Light Stress

Ikuko Yuyama, Tomihiko Higuchi, Takuma Mezaki, Hisako Tashiro, Kazuho Ikeo

2022Frontiers in Physiology16 citationsDOIOpen Access PDF

Abstract

Algal symbionts of corals can influence host stress resistance; for example, in the Pacific Ocean, whereas Cladocopium (C-type) is generally dominant in corals, Durusdinium (D-type) is found in more heat-resistant corals. Thus, the presence of D-type symbiont likely increases coral heat tolerance, and this symbiotic relationship potentially provides a hint to increase the stress tolerance of coral–algal symbioses. In this study, transcriptome profiles of Cladocopium- and Durusdinium -harboring Acropora solitaryensis (C-coral and D-coral, respectively) and algal photosystem functioning ( F v /F m ) under bleaching conditions (high temperature and light stress) were compared. Stress treatment caused algal photoinhibition that the F v / F m value of Symbiodiniaceae was immediately reduced. The transcriptome analysis of corals revealed that genes involved in the following processes were detected: endoplasmic reticulum (ER) stress, mitophagy, apoptosis, endocytosis, metabolic processes (acetyl-CoA, chitin metabolic processes, etc.), and the PI3K-AKT pathway were upregulated, while DNA replication and the calcium signaling pathway were downregulated in both C- and D-corals. These results suggest that unrepaired DNA and protein damages were accumulated in corals under high temperature and light stress. Additionally, some differentially expressed genes (DEGs) were specific to C- or D-corals, which includes genes involved in transient receptor potential (TRP) channels and vitamin B metabolic processes. Algal transcriptome analysis showed the increased expression of gene encoding photosystem and molecular chaperone especially in D-type symbiont. The transcriptome data imply a possible difference in the stress reactions on C-type and D-type symbionts. The results reveal the basic process of coral heat/light stress response and symbiont-type-specific coral transcriptional responses, which provides a perspective on the mechanisms that cause differences in coral stress tolerance.

Topics & Concepts

BiologyCoralTranscriptomeCoral bleachingCell biologySymbiosisBotanyGeneGene expressionEcologyGeneticsBacteriaCoral and Marine Ecosystems StudiesMarine and coastal plant biologyOcean Acidification Effects and Responses