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W3148985227 startingPage "736747" @default.
W3148985227 abstract "Thermal tolerance is a highly valuable trait for aquaculture. However, complex regulatory mechanisms prevent conventional molecular markers, based on DNA, from being effective. Thus, in order to search for potential cold-tolerance biomarkers in fish at a post-transcriptional level, the aim of this work is to systematic review current literature on miRNAs related to low temperature in teleost fish and answer the question: are there any miRNAs related to key mechanisms of cold-tolerance in fish? Through a systematic search in 3 different databases, a total of 418 studies were initially identified. After criterious screening, 6 studies were included in the systematic review. At least 71 miRNAs were reported to be differentially expressed (DE) in fish exposed to low temperatures, from which 29 were considered up regulated and 42 down regulated in cold stressed fish. Among the total number of DE miRNAs, 6 were found to be present in at least two studies: miR-9-3p, miR-135c, miR-9-5p, miR-30b, miR-122, miR-92a-3p. DE miRNAs presented in at least two studies were submitted to DIANA mirPath v.3 to identify potential target genes using microT-CDS v 5.0 database. These miRNAs potentially target key regulatory enzymes to glucose and lipid metabolism, controlling the shift in energy metabolism required for cold adaptation. FoxO signaling and circadian cycle are also very likely involved in thermal tolerance mechanisms. These findings represent potential targets for further investigation of microRNA-based predictive tools for fish cold tolerance." @default.
W3148985227 created "2021-04-13" @default.
W3148985227 creator A5012030905 @default.
W3148985227 creator A5015084888 @default.
W3148985227 creator A5035516142 @default.
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W3148985227 creator A5047696365 @default.
W3148985227 creator A5077616965 @default.
W3148985227 date "2021-07-01" @default.
W3148985227 modified "2023-10-03" @default.
W3148985227 title "MicroRNA roles and their potential use as selection tool to cold tolerance of domesticated teleostean species: A systematic review" @default.
W3148985227 cites W1124111970 @default.
W3148985227 cites W144423133 @default.
W3148985227 cites W1571201972 @default.
W3148985227 cites W1609044025 @default.
W3148985227 cites W1677809702 @default.
W3148985227 cites W1854788355 @default.
W3148985227 cites W1874592067 @default.
W3148985227 cites W1965306643 @default.
W3148985227 cites W1968400157 @default.
W3148985227 cites W1980683066 @default.
W3148985227 cites W1983407407 @default.
W3148985227 cites W1994684526 @default.
W3148985227 cites W1995467600 @default.
W3148985227 cites W1999970937 @default.
W3148985227 cites W2003216189 @default.
W3148985227 cites W2004943023 @default.
W3148985227 cites W2015745609 @default.
W3148985227 cites W2025027054 @default.
W3148985227 cites W2027963066 @default.
W3148985227 cites W2030987469 @default.
W3148985227 cites W2036987782 @default.
W3148985227 cites W2038099717 @default.
W3148985227 cites W2039546593 @default.
W3148985227 cites W2045365231 @default.
W3148985227 cites W2046156847 @default.
W3148985227 cites W2053490054 @default.
W3148985227 cites W2053857005 @default.
W3148985227 cites W2059365427 @default.
W3148985227 cites W2065566217 @default.
W3148985227 cites W2076103389 @default.
W3148985227 cites W2076610906 @default.
W3148985227 cites W2079236257 @default.
W3148985227 cites W2089999103 @default.
W3148985227 cites W2115026470 @default.
W3148985227 cites W2119337308 @default.
W3148985227 cites W2124969091 @default.
W3148985227 cites W2130837258 @default.
W3148985227 cites W2134394278 @default.
W3148985227 cites W2147179608 @default.
W3148985227 cites W2151526783 @default.
W3148985227 cites W2151912077 @default.
W3148985227 cites W2155147360 @default.
W3148985227 cites W2163682593 @default.
W3148985227 cites W2254858643 @default.
W3148985227 cites W2278469987 @default.
W3148985227 cites W2288482887 @default.
W3148985227 cites W2542020205 @default.
W3148985227 cites W2550861558 @default.
W3148985227 cites W2554461499 @default.
W3148985227 cites W2558367525 @default.
W3148985227 cites W2564151118 @default.
W3148985227 cites W2698223 @default.
W3148985227 cites W2770449496 @default.
W3148985227 cites W2773484508 @default.
W3148985227 cites W2781833812 @default.
W3148985227 cites W2791409796 @default.
W3148985227 cites W2793111399 @default.
W3148985227 cites W2804214891 @default.
W3148985227 cites W2805957379 @default.
W3148985227 cites W2806572362 @default.
W3148985227 cites W2885052823 @default.
W3148985227 cites W2888030535 @default.
W3148985227 cites W2896855628 @default.
W3148985227 cites W2901970336 @default.
W3148985227 cites W2911227088 @default.
W3148985227 cites W2912216846 @default.
W3148985227 cites W2916554812 @default.
W3148985227 cites W2922148374 @default.
W3148985227 cites W2948418067 @default.
W3148985227 cites W2956085274 @default.
W3148985227 cites W2970448893 @default.
W3148985227 cites W2973742484 @default.
W3148985227 cites W2981220528 @default.
W3148985227 cites W4250459928 @default.
W3148985227 cites W963695158 @default.
W3148985227 doi "https://doi.org/10.1016/j.aquaculture.2021.736747" @default.
W3148985227 hasPublicationYear "2021" @default.
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