Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis
Abstract Background Larval nutrition and growth are key issues for wild and cultured cod. While it was shown previously that larval cod fed wild zooplankton grow faster than those fed only rotifers, the mechanisms involved in this enhanced growth are not completely understood. We used microarrays to...
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Figshare
2015
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| Online Access: | https://dx.doi.org/10.6084/m9.figshare.c.3618848 https://figshare.com/collections/Transcriptome_profiling_reveals_that_feeding_wild_zooplankton_to_larval_Atlantic_cod_Gadus_morhua_influences_suites_of_genes_involved_in_oxidation-reduction_mitosis_and_selenium_homeostasis/3618848 |
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ftdatacite:10.6084/m9.figshare.c.3618848 2023-05-15T15:27:52+02:00 Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis Rise, Matthew Hall, Jennifer Nash, Gordon Xue, Xi Booman, Marije Katan, Tomer A. Gamperl 2015 https://dx.doi.org/10.6084/m9.figshare.c.3618848 https://figshare.com/collections/Transcriptome_profiling_reveals_that_feeding_wild_zooplankton_to_larval_Atlantic_cod_Gadus_morhua_influences_suites_of_genes_involved_in_oxidation-reduction_mitosis_and_selenium_homeostasis/3618848 unknown Figshare https://dx.doi.org/10.1186/s12864-015-2120-1 CC BY 4.0 https://creativecommons.org/licenses/by/4.0 CC-BY Cell Biology Genetics FOS Biological sciences Molecular Biology Neuroscience Physiology Ecology 69999 Biological Sciences not elsewhere classified Developmental Biology Collection article 2015 ftdatacite https://doi.org/10.6084/m9.figshare.c.3618848 https://doi.org/10.1186/s12864-015-2120-1 2021-11-05T12:55:41Z Abstract Background Larval nutrition and growth are key issues for wild and cultured cod. While it was shown previously that larval cod fed wild zooplankton grow faster than those fed only rotifers, the mechanisms involved in this enhanced growth are not completely understood. We used microarrays to identify larval cod transcripts that respond to feeding with small amounts of wild zooplankton (5–10 % of live prey items). The larval transcriptome was compared between 3 treatment groups [fed rotifers (RA), rotifers with protein hydrolysate (RA-PH), or rotifers with zooplankton (RA-Zoo)] at 9–10 mm length [26–30 days post-hatch (dph)] to identify a robust suite of zooplankton-responsive genes (i.e. differentially expressed between RA-Zoo and both other groups). Results The microarray experiment identified 147 significantly up-regulated and 156 significantly down-regulated features in RA-Zoo compared with both RA and RA-PH. Gene ontology terms overrepresented in the RA-Zoo responsive gene set included “response to selenium ion” and several related to cell division and oxidation-reduction. Ten selenoprotein-encoding genes, and 2 genes involved in thyroid hormone generation, were up-regulated in RA-Zoo compared with both other groups. Hierarchical clustering of RA-Zoo responsive genes involved in oxidation-reduction and selenium homeostasis demonstrated that only the zooplankton treatment had a considerable and consistent impact on the expression of these genes. Fourteen microarray-identified genes were selected for QPCR involving 9–13 mm larvae, and 13 of these were validated as differentially expressed between RA-Zoo and both other groups at ~9 mm. In contrast, in age-matched (34–35 dph; ~11 mm RA and RA-PH, ~13 mm RA-Zoo) and size-matched (~13 mm) older larvae, only 2 and 3 genes, respectively, showed the same direction of RA-Zoo-responsive change as in ~9 mm larvae. Conclusions The modulation of genes involved in selenium binding, redox homeostasis, and thyroid hormone generation in ~9 mm RA-Zoo larvae in this study may be in response to the relatively high levels of selenium, iodine, and LC-PUFA (potentially causing oxidative stress) in zooplankton. Nonetheless, only a subset of zooplankton-responsive genes in ~9 mm larvae remained so in older larvae, suggesting that the observed transcriptome changes are largely involved in initiating the period of growth enhancement. Article in Journal/Newspaper atlantic cod Gadus morhua DataCite Metadata Store (German National Library of Science and Technology) |
| institution |
Open Polar |
| collection |
DataCite Metadata Store (German National Library of Science and Technology) |
| op_collection_id |
ftdatacite |
| language |
unknown |
| topic |
Cell Biology Genetics FOS Biological sciences Molecular Biology Neuroscience Physiology Ecology 69999 Biological Sciences not elsewhere classified Developmental Biology |
| spellingShingle |
Cell Biology Genetics FOS Biological sciences Molecular Biology Neuroscience Physiology Ecology 69999 Biological Sciences not elsewhere classified Developmental Biology Rise, Matthew Hall, Jennifer Nash, Gordon Xue, Xi Booman, Marije Katan, Tomer A. Gamperl Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| topic_facet |
Cell Biology Genetics FOS Biological sciences Molecular Biology Neuroscience Physiology Ecology 69999 Biological Sciences not elsewhere classified Developmental Biology |
| description |
Abstract Background Larval nutrition and growth are key issues for wild and cultured cod. While it was shown previously that larval cod fed wild zooplankton grow faster than those fed only rotifers, the mechanisms involved in this enhanced growth are not completely understood. We used microarrays to identify larval cod transcripts that respond to feeding with small amounts of wild zooplankton (5–10 % of live prey items). The larval transcriptome was compared between 3 treatment groups [fed rotifers (RA), rotifers with protein hydrolysate (RA-PH), or rotifers with zooplankton (RA-Zoo)] at 9–10 mm length [26–30 days post-hatch (dph)] to identify a robust suite of zooplankton-responsive genes (i.e. differentially expressed between RA-Zoo and both other groups). Results The microarray experiment identified 147 significantly up-regulated and 156 significantly down-regulated features in RA-Zoo compared with both RA and RA-PH. Gene ontology terms overrepresented in the RA-Zoo responsive gene set included “response to selenium ion” and several related to cell division and oxidation-reduction. Ten selenoprotein-encoding genes, and 2 genes involved in thyroid hormone generation, were up-regulated in RA-Zoo compared with both other groups. Hierarchical clustering of RA-Zoo responsive genes involved in oxidation-reduction and selenium homeostasis demonstrated that only the zooplankton treatment had a considerable and consistent impact on the expression of these genes. Fourteen microarray-identified genes were selected for QPCR involving 9–13 mm larvae, and 13 of these were validated as differentially expressed between RA-Zoo and both other groups at ~9 mm. In contrast, in age-matched (34–35 dph; ~11 mm RA and RA-PH, ~13 mm RA-Zoo) and size-matched (~13 mm) older larvae, only 2 and 3 genes, respectively, showed the same direction of RA-Zoo-responsive change as in ~9 mm larvae. Conclusions The modulation of genes involved in selenium binding, redox homeostasis, and thyroid hormone generation in ~9 mm RA-Zoo larvae in this study may be in response to the relatively high levels of selenium, iodine, and LC-PUFA (potentially causing oxidative stress) in zooplankton. Nonetheless, only a subset of zooplankton-responsive genes in ~9 mm larvae remained so in older larvae, suggesting that the observed transcriptome changes are largely involved in initiating the period of growth enhancement. |
| format |
Article in Journal/Newspaper |
| author |
Rise, Matthew Hall, Jennifer Nash, Gordon Xue, Xi Booman, Marije Katan, Tomer A. Gamperl |
| author_facet |
Rise, Matthew Hall, Jennifer Nash, Gordon Xue, Xi Booman, Marije Katan, Tomer A. Gamperl |
| author_sort |
Rise, Matthew |
| title |
Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| title_short |
Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| title_full |
Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| title_fullStr |
Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| title_full_unstemmed |
Transcriptome profiling reveals that feeding wild zooplankton to larval Atlantic cod (Gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| title_sort |
transcriptome profiling reveals that feeding wild zooplankton to larval atlantic cod (gadus morhua) influences suites of genes involved in oxidation-reduction, mitosis, and selenium homeostasis |
| publisher |
Figshare |
| publishDate |
2015 |
| url |
https://dx.doi.org/10.6084/m9.figshare.c.3618848 https://figshare.com/collections/Transcriptome_profiling_reveals_that_feeding_wild_zooplankton_to_larval_Atlantic_cod_Gadus_morhua_influences_suites_of_genes_involved_in_oxidation-reduction_mitosis_and_selenium_homeostasis/3618848 |
| genre |
atlantic cod Gadus morhua |
| genre_facet |
atlantic cod Gadus morhua |
| op_relation |
https://dx.doi.org/10.1186/s12864-015-2120-1 |
| op_rights |
CC BY 4.0 https://creativecommons.org/licenses/by/4.0 |
| op_rightsnorm |
CC-BY |
| op_doi |
https://doi.org/10.6084/m9.figshare.c.3618848 https://doi.org/10.1186/s12864-015-2120-1 |
| _version_ |
1766358271910739968 |