FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2967397861> ?p ?o ?g. }

• W2967397861 endingPage "83" @default.
• W2967397861 startingPage "73" @default.
• W2967397861 abstract "The greater amberjack Seriola dumerili (Risso, 1810) is a large migratory pelagic fish occurring in tropical and temperate waters with a great potential for the world aquaculture industry. Previous studies showed that wild-caught female greater amberjack reared in sea cages and handled during the reproductive season, underwent extensive ovarian atresia. This atresia, however, was not related to an insufficient liver transcription or oocyte uptake of vitellogenin (Vtg). In the present study, the structure of two greater amberjack vitellogenin receptors, namely Vtgr (Lr8-) and Lrp13, was characterized. Moreover, vtgr and lrp13 gene expression and the fatty acid profiles of specific phospholipids and neutral lipids were compared in the ovaries of wild and captive-reared greater amberjack during different phases of the reproductive cycle (i.e. early gametogenesis, advanced gametogenesis and spawning). Ovarian vtgr and lrp13 transcription was more active during early gametogenesis, suggesting that vitellogenin receptor transcripts were synthesized by previtellogenic oocytes and remained in the cellular mRNA pool until oocytes resumed meiosis and entered into secondary growth (i.e. vitellogenesis). Rearing of wild-caught greater amberjack in captivity together with handling during the reproductive season was associated with a reduced vtgr and lrp13 transcription and with a diminished capacity of oocytes in the early phase of gametogenesis (primary oocyte growth) to enter into vitellogenesis. During early gametogenesis, remarkable differences in the fatty acid composition were observed between wild and captive-reared individuals: all phospholipids of captive fish displayed dramatic increases of saturates (16:0 and 18:0) and decreases of arachidonic acid (ARA) and docosahexaenoic acid (DHA). The present study confirms the susceptibility of greater amberjack reproductive function to handling stress and suggests that the consequent extensive atresia of vitellogenic follicles originated during the primary oocytes growth when the capacity of oocytes to synthesize vitellogenin receptors was reduced. The study also suggests that this reduced capacity was associated with an altered oocyte phospholipid fatty acid composition during early gametogenesis." @default.
• W2967397861 created "2019-08-22" @default.
• W2967397861 creator A5013499848 @default.
• W2967397861 creator A5018069085 @default.
• W2967397861 creator A5019357864 @default.
• W2967397861 creator A5027904817 @default.
• W2967397861 creator A5042798010 @default.
• W2967397861 creator A5053348353 @default.
• W2967397861 creator A5069367342 @default.
• W2967397861 creator A5069467279 @default.
• W2967397861 creator A5079774378 @default.
• W2967397861 creator A5079923862 @default.
• W2967397861 creator A5081005853 @default.
• W2967397861 date "2019-12-01" @default.
• W2967397861 modified "2023-10-10" @default.
• W2967397861 title "Vitellogenin receptor and fatty acid profiles of individual lipid classes of oocytes from wild and captive-reared greater amberjack (Seriola dumerili) during the reproductive cycle" @default.
• W2967397861 cites W1482890490 @default.
• W2967397861 cites W1550247149 @default.
• W2967397861 cites W1554390204 @default.
• W2967397861 cites W1939592913 @default.
• W2967397861 cites W1965926566 @default.
• W2967397861 cites W1972785483 @default.
• W2967397861 cites W1973219771 @default.
• W2967397861 cites W1973744926 @default.
• W2967397861 cites W1979093151 @default.
• W2967397861 cites W1983117466 @default.
• W2967397861 cites W1983872664 @default.
• W2967397861 cites W1994594209 @default.
• W2967397861 cites W2005673211 @default.
• W2967397861 cites W2007385667 @default.
• W2967397861 cites W2009495720 @default.
• W2967397861 cites W2016013297 @default.
• W2967397861 cites W2023211373 @default.
• W2967397861 cites W2024943051 @default.
• W2967397861 cites W2025226005 @default.
• W2967397861 cites W2029392945 @default.
• W2967397861 cites W2030210480 @default.
• W2967397861 cites W2046892081 @default.
• W2967397861 cites W2055592745 @default.
• W2967397861 cites W2057119048 @default.
• W2967397861 cites W2065607208 @default.
• W2967397861 cites W2073150860 @default.
• W2967397861 cites W2077587416 @default.
• W2967397861 cites W2078153548 @default.
• W2967397861 cites W2078602147 @default.
• W2967397861 cites W2081337775 @default.
• W2967397861 cites W2087578563 @default.
• W2967397861 cites W2088335937 @default.
• W2967397861 cites W2092749674 @default.
• W2967397861 cites W2096259497 @default.
• W2967397861 cites W2100879404 @default.
• W2967397861 cites W2105444449 @default.
• W2967397861 cites W2106882534 @default.
• W2967397861 cites W2107277218 @default.
• W2967397861 cites W2116377440 @default.
• W2967397861 cites W2119526533 @default.
• W2967397861 cites W2123247959 @default.
• W2967397861 cites W2126402845 @default.
• W2967397861 cites W2135127421 @default.
• W2967397861 cites W2142434282 @default.
• W2967397861 cites W2142529154 @default.
• W2967397861 cites W2148645462 @default.
• W2967397861 cites W2158714788 @default.
• W2967397861 cites W2167910682 @default.
• W2967397861 cites W2168526937 @default.
• W2967397861 cites W2340358807 @default.
• W2967397861 cites W2548758277 @default.
• W2967397861 cites W2569151526 @default.
• W2967397861 cites W2590102585 @default.
• W2967397861 cites W2739662627 @default.
• W2967397861 cites W2743219885 @default.
• W2967397861 cites W2745358720 @default.
• W2967397861 cites W2794711502 @default.
• W2967397861 cites W2885460385 @default.
• W2967397861 cites W2889590198 @default.
• W2967397861 cites W2901632248 @default.
• W2967397861 cites W2905583699 @default.
• W2967397861 cites W2912990441 @default.
• W2967397861 cites W831135148 @default.
• W2967397861 doi "https://doi.org/10.1016/j.theriogenology.2019.08.014" @default.
• W2967397861 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31465910" @default.
• W2967397861 hasPublicationYear "2019" @default.
• W2967397861 type Work @default.
• W2967397861 sameAs 2967397861 @default.
• W2967397861 citedByCount "12" @default.
• W2967397861 countsByYear W29673978612020 @default.
• W2967397861 countsByYear W29673978612021 @default.
• W2967397861 countsByYear W29673978612022 @default.
• W2967397861 countsByYear W29673978612023 @default.
• W2967397861 crossrefType "journal-article" @default.
• W2967397861 hasAuthorship W2967397861A5013499848 @default.
• W2967397861 hasAuthorship W2967397861A5018069085 @default.
• W2967397861 hasAuthorship W2967397861A5019357864 @default.
• W2967397861 hasAuthorship W2967397861A5027904817 @default.
• W2967397861 hasAuthorship W2967397861A5042798010 @default.
• W2967397861 hasAuthorship W2967397861A5053348353 @default.
• W2967397861 hasAuthorship W2967397861A5069367342 @default.
• W2967397861 hasAuthorship W2967397861A5069467279 @default.

• next