Organism-environment interactions and differential gene expression patterns among open-coastal and estuarine populations of Porphyra umbilicalis Kützing (Rhodophyta) in the Northwest Atlantic

Abstract Intertidal macroalgae are exposed to many abiotic stress factors, and they must regularly react to changes in their environment. We used RNA-seq to describe how Porphyra umbilicalis (Rhodophyta) changes gene expression patterns to interact with different habitats. Tissue samples were taken...

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Bibliographic Details
Published in:Fisheries and Aquatic Sciences
Main Authors: Renée L. Eriksen, Anita S. Klein
Format: Article in Journal/Newspaper
Language:English
Published: The Korean Society of Fisheries and Aquatic Science 2018
Subjects:
Antioxidant enzymes
qPCR
RNA-seq
Ammonium transporter
Nitrogen assimilation
Aquaculture. Fisheries. Angling
SH1-691
Northwest Atlantic
Online Access:https://doi.org/10.1186/s41240-018-0103-2
https://doaj.org/article/fd81b0cf551e47108a2f645a99f032d6
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Summary:Abstract Intertidal macroalgae are exposed to many abiotic stress factors, and they must regularly react to changes in their environment. We used RNA-seq to describe how Porphyra umbilicalis (Rhodophyta) changes gene expression patterns to interact with different habitats. Tissue samples were taken from a typical habitat along the open-coast of the Northwest Atlantic, as well as from a rare, atypical habitat in an estuarine tidal rapid environment. Differential gene expression analyses suggest that pathogic bacteria and viruses may be a significant factor influencing the transcriptome in the human-impacted estuarine environment, but the atypical habitat does not necessarily induce more stress in Porphyra umbilicalis growing there. We found genes related to nitrogen transport are over-expressed in tissue from the open-coastal site compared to those from the estuarine site, where environmental N levels approach hypertrophic levels. Low N levels impede growth, but high levels are toxic to cells, and we use qPCR to show this species regulates expression of a putative high-affinity NH4 + transporter under low and high N conditions. Differences in expression of this transporter in these habitats appear to be inherited from parent to offspring and have general implications for adaptation to habitat in other species that are capable of asexual reproduction, as well as more specific implications for this species’ use in aquaculture.

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