2011
DOI: 10.1242/jeb.053439
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ATP distribution and localization of mitochondria in Suberites domuncula (Olivi 1792) tissue

Abstract: SUMMARYThe metabolic energy state of sponge tissue in vivo is largely unknown. Quantitative bioluminescence-based imaging was used to analyze the ATP distribution of Suberites domuncula (Olivi 1792) tissue, in relation to differences between the cortex and the medulla. This method provides a quantitative picture of the ATP distribution closely reflecting the in vivo situation. The obtained data suggest that the highest ATP content occurs around channels in the sponge medulla. HPLC reverse-phase C-18, used for … Show more

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Cited by 8 publications
(4 citation statements)
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“…Our NanoSIMS results offer one of the first insights into the fate of DOM after entering the sponge via the choanocytes. As mentioned above, part of the material may be directly metabolized by the choanocytes [10,55]. Our data show that metabolized products are then further processed reaching the dinoflagellate symbionts, implying that in C. orientalis, and potentially other phototrophic sponges, nutrients are to a certain extent cycled internally prior to being released.…”
Section: (B) Sharing Of Waste Products With Dinoflagellate Symbiontssupporting
confidence: 54%
See 1 more Smart Citation
“…Our NanoSIMS results offer one of the first insights into the fate of DOM after entering the sponge via the choanocytes. As mentioned above, part of the material may be directly metabolized by the choanocytes [10,55]. Our data show that metabolized products are then further processed reaching the dinoflagellate symbionts, implying that in C. orientalis, and potentially other phototrophic sponges, nutrients are to a certain extent cycled internally prior to being released.…”
Section: (B) Sharing Of Waste Products With Dinoflagellate Symbiontssupporting
confidence: 54%
“…This implies that vesicle-stored DOM was, at least partially, already processed within the first 3 h of our experiment, spreading the fixed material inside the choanocytes. The poor carbon signal in comparison may reflect preferential burning of carbon-rich compounds to fuel the energetically costly beating of choanocyte flagellae [10,55], or abovementioned methodological biases against carbon fixation in the sample processing [47].…”
Section: Discussionmentioning
confidence: 99%
“…Acidification similarly reduced uptake of DOC, which may point towards a trade-off between autotrophy (due to stimulation of photosynthesis under elevated p CO 2 ) and heterotrophy. Alternatively, prolonged high levels of H + may have had deleterious effects on the filter-feeding capacity of the sponge, for example by affecting mitochondrial ATP recycling which is crucial to the flagellar beating 80 . Further investigations are necessary to confirm what caused the observed decrease in carbon uptake under acidification.…”
Section: Discussionmentioning
confidence: 99%
“…In this context it is interesting to note that the high‐energy storage and liberating system via the arginine kinase evolved already in the most basal metazoans, the sponges (phylum Porifera) . More specific, the enzyme is localized in the mitochondria of those cells of these animals that show the highest energy consumption, the choanocytes, which represent the ‘motor’ cells in sponges . While under aerobic conditions the shuttling lipids show the highest rates of ATP production within the cells, they are the carbohydrates that meet this function under anaerobic conditions .…”
Section: Introductionmentioning
confidence: 99%