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Impacts of seawater acidification on mantle gene expression patterns of the Baltic Sea blue mussel; implications for shell formation and energy budget (2013)

Hüning, A. ; Melzner, Frank ; Thomsen, F. ; [et al.]

Springer

In: Marine Biology, 160 (8). pp. 1845-1861.

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Publication Date: 2019-09-23

Description: Marine organisms have to cope with increasing CO2 partial pressures and decreasing pH in the oceans. We elucidated the impacts of an 8-week acclimation period to four seawater pCO2 treatments (39, 113, 243 and 405 Pa/385, 1,120, 2,400 and 4,000 µatm) on mantle gene expression patterns in the blue mussel Mytilus edulis from the Baltic Sea. Based on the M. edulis mantle tissue transcriptome, the expression of several genes involved in metabolism, calcification and stress responses was assessed in the outer (marginal and pallial zone) and the inner mantle tissues (central zone) using quantitative real-time PCR. The expression of genes involved in energy and protein metabolism (F-ATPase, hexokinase and elongation factor alpha) was strongly affected by acclimation to moderately elevated CO2 partial pressures. Expression of a chitinase, potentially important for the calcification process, was strongly depressed (maximum ninefold), correlating with a linear decrease in shell growth observed in the experimental animals. Interestingly, shell matrix protein candidate genes were less affected by CO2 in both tissues. A compensatory process toward enhanced shell protection is indicated by a massive increase in the expression of tyrosinase, a gene involved in periostracum formation (maximum 220-fold). Using correlation matrices and a force-directed layout network graph, we were able to uncover possible underlying regulatory networks and the connections between different pathways, thereby providing a molecular basis of observed changes in animal physiology in response to ocean acidification.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00227-012-1930-9

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NOD-Like Receptors-Pivotal Guardians of the Immunological Integrity of Barrier Organs (2009)

Rosenstiel, Philip ; Schreiber, Stefan

Springer

In: In: Target Pattern Recognition in Innate Immunity. Advances in Experimental Medicine and Biology, 653 . Springer, Heidelberg, pp. 35-47. ISBN 978-1-4419-0900-8

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Publication Date: 2013-02-18

Description: NOD-like receptors (NLRs) exert pivotal roles in innate immunity as sensors of exogenous or endogenous cellular danger signals. The NLR protein family has a characteristic domain architecture comprising a central nucleotide binding and oligomerization domain (NOD), an N-terminal effector binding domain and C-terminal leucine-rich repeats (LRRs). Mutations in NLR genes are genetically associated with a number of chronic inflammatory diseases of barrier organs. In this chapter, we focus on the influence of NLR regulation and function in the complex pathophysiology of mucosal homeostasis. The understanding of NLR biology may guide our future understanding of how the interaction between the human genome and the metagenome of transient and resident microbiota precipitates into chronic inflammatory disorders, such as Crohn's disease or atopy.

Type: Book chapter , PeerReviewed

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Gene expression and physiological changes of different populations of the long-lived bivalve Arctica islandica under low oxygen conditions. (2012)

Philipp, Eva ; Wessels, Wiebke ; Gruber, Heike ; [et al.]

PUBLIC LIBRARY SCIENCE

In: EPIC3PLoS ONE, PUBLIC LIBRARY SCIENCE, 7(9), pp. e44621, ISSN: 1932-6203

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Publication Date: 2019-07-16

Description: The bivalve Arctica islandica is extremely long lived (〉400 years) and can tolerate long periods of hypoxia and anoxia. European populations differ in maximum life spans from 40 years in the Baltic to 〉400 years around Iceland. Characteristic behavior In their natural environment and under laboratory conditions,of A. islandica performs involves phases of metabolic rate depression (MRD) during which the animals burry into the sediment for several days and which suggested possibly supporting the long life span of some populations. The animals burrow into the sediment for some days an In the buried state d lower shelshell water oxygen concentrations to hypoxic andreaches even anoxic levels. In the present study wWe investigated gene regulation in individuals A. islandica fromof the a longer- lived (MLSP 150years) German Bight population and the a shorter- lived Baltic Sea population, experimentally exposed to different oxygen levels. A new A. islandica transcriptome enabled the identification of genes important during hypoxia/anoxia events and, more generally, gene mining for putative stress response and (anti-) aging genes. Exposed to low oxygen (0 and 2 kPa) conditions, German Bight individuals generally suppress gene transcription, whereas Baltic Sea bivalves enhanced gene transcription under anoxic incubation (0 kPa), and, further, decreased these transcription levels again during 6h of re-oxygenation. Hypoxic and anoxic exposure and subsequent re-oxygenation in Baltic Sea animals did not lead to increased protein oxidation or induction of apoptosis, emphasizing considerable hypoxia/re-oxygenation tolerance of in this species. The data suggest that the energy saving effect of MRD may not be an attribute of Baltic Sea A. islandica chronically exposed to high environmental variability of oxygenation and also temperature and salinity. Contrary, higher physiological flexibility and stress hardening may predispose these animals to perform a pronounced stress response at the expense of life span.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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