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• W2000973406 abstract "MEPS Marine Ecology Progress Series Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsTheme Sections MEPS 467:61-75 (2012) - DOI: https://doi.org/10.3354/meps09947 Seasonal and spatial influences on gene expression in Antarctic krill Euphausia superba Paul J. Seear1,2, William P. Goodall-Copestake1, Andrew H. Fleming1, Ezio Rosato3, Geraint A. Tarling1,* 1British Antarctic Survey, Natural Environment Research Council, High Cross, Madingley Road, Cambridge CB3 0ET, UK 2Department of Biology, and 3Department of Genetics, University of Leicester, University Road, Leicester LE1 7RH, UK *Email: gant@bas.ac.uk ABSTRACT: The high latitudes inhabited by Antarctic krill Euphausia superba Dana are characterised by extreme changes in seasonal conditions, with very low food availability, long periods of darkness and a massive expansion of sea ice in autumn and winter. How krill adapt to these conditions has yet to be determined, and it was the purpose of this study to gain more insight by investigating the differences between summer and winter krill populations at the molecular level. To achieve this, we used a cDNA microarray to compare gene expression between female adult krill caught during summer and winter near the Antarctic Peninsula (60°S), and between Peninsula krill and krill caught near South Georgia (54°S) during the same winter. The Peninsula seasonal comparison showed up-regulation in summer krill of genes involved in feeding and digestion, respiration, motor activity and immunity. Summer krill also showed evidence of increased vitellogenesis, with an insulin-related peptide up-regulated and neuroparsin down-regulated. The comparison between the different overwintering locations showed an up-regulation in the South Georgia krill of genes involved in feeding and digestion, and immunity. There was, however, no differential expression of genes involved in respiration, motor activity or vitellogenesis, suggesting that despite the above differences, both populations of overwintering krill were in a quiescent state. This study shows how krill physiology changes seasonally at the molecular level and how these changes are flexible according to the overwintering environment. KEY WORDS: Southern Ocean · Genomics · Physiology · Feeding · Reproduction · Immune-response · Overwintering · Quiescence Full text in pdf format Supplementary material PreviousNextCite this article as: Seear PJ, Goodall-Copestake WP, Fleming AH, Rosato E, Tarling GA (2012) Seasonal and spatial influences on gene expression in Antarctic krill Euphausia superba. Mar Ecol Prog Ser 467:61-75. https://doi.org/10.3354/meps09947 Export citation RSS - Facebook - Tweet - linkedIn Cited by Published in MEPS Vol. 467. Online publication date: October 25, 2012 Print ISSN: 0171-8630; Online ISSN: 1616-1599 Copyright © 2012 Inter-Research." @default.
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• W2000973406 date "2012-10-25" @default.
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• W2000973406 title "Seasonal and spatial influences on gene expression in Antarctic krill Euphausia superba" @default.
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• W2000973406 cites W162752338 @default.
• W2000973406 cites W1909390701 @default.
• W2000973406 cites W1965114744 @default.
• W2000973406 cites W1965398642 @default.
• W2000973406 cites W1966126978 @default.
• W2000973406 cites W1972679963 @default.
• W2000973406 cites W1974526924 @default.
• W2000973406 cites W1974755908 @default.
• W2000973406 cites W1976862248 @default.
• W2000973406 cites W1980530598 @default.
• W2000973406 cites W1985759245 @default.
• W2000973406 cites W1986184283 @default.
• W2000973406 cites W1986380027 @default.
• W2000973406 cites W1986380157 @default.
• W2000973406 cites W1988304231 @default.
• W2000973406 cites W1990244058 @default.
• W2000973406 cites W1991342982 @default.
• W2000973406 cites W1994189709 @default.
• W2000973406 cites W1995595423 @default.
• W2000973406 cites W1995610333 @default.
• W2000973406 cites W1997074739 @default.
• W2000973406 cites W1997430891 @default.
• W2000973406 cites W2009181590 @default.
• W2000973406 cites W2009381381 @default.
• W2000973406 cites W2009959474 @default.
• W2000973406 cites W2012128679 @default.
• W2000973406 cites W2028165890 @default.
• W2000973406 cites W2034857256 @default.
• W2000973406 cites W2036972681 @default.
• W2000973406 cites W2038711496 @default.
• W2000973406 cites W2042369160 @default.
• W2000973406 cites W2043484703 @default.
• W2000973406 cites W2046231270 @default.
• W2000973406 cites W2047415824 @default.
• W2000973406 cites W2049995956 @default.
• W2000973406 cites W2051068113 @default.
• W2000973406 cites W2057085727 @default.
• W2000973406 cites W2057697250 @default.
• W2000973406 cites W2058018859 @default.
• W2000973406 cites W2058702807 @default.
• W2000973406 cites W2059812796 @default.
• W2000973406 cites W2063566802 @default.
• W2000973406 cites W2064413975 @default.
• W2000973406 cites W2065387297 @default.
• W2000973406 cites W2067650045 @default.
• W2000973406 cites W2067913139 @default.
• W2000973406 cites W2068825089 @default.
• W2000973406 cites W2069183075 @default.
• W2000973406 cites W2078074534 @default.
• W2000973406 cites W2079858711 @default.
• W2000973406 cites W2088820312 @default.
• W2000973406 cites W2090524708 @default.
• W2000973406 cites W2092578674 @default.
• W2000973406 cites W2095166151 @default.
• W2000973406 cites W2096676263 @default.
• W2000973406 cites W2099249565 @default.
• W2000973406 cites W2104164822 @default.
• W2000973406 cites W2108968660 @default.
• W2000973406 cites W2109636763 @default.
• W2000973406 cites W2110065044 @default.
• W2000973406 cites W2117032944 @default.
• W2000973406 cites W2124143239 @default.
• W2000973406 cites W2124293747 @default.
• W2000973406 cites W2125266474 @default.
• W2000973406 cites W2139479686 @default.
• W2000973406 cites W2141261198 @default.
• W2000973406 cites W2141799790 @default.
• W2000973406 cites W2148568618 @default.
• W2000973406 cites W2149875922 @default.
• W2000973406 cites W2153924995 @default.
• W2000973406 cites W2164154943 @default.
• W2000973406 cites W2168964292 @default.
• W2000973406 cites W2171253819 @default.
• W2000973406 cites W4211144830 @default.
• W2000973406 cites W4237030438 @default.
• W2000973406 cites W4245085808 @default.
• W2000973406 doi "https://doi.org/10.3354/meps09947" @default.
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