about
The metabolic consequences of hepatic AMP-kinase phosphorylation in rainbow troutExposure to an acute hypoxic stimulus during early life affects the expression of glucose metabolism-related genes at first-feeding in trout.Experimental evidence of population differences in reproductive investment conditional on environmental stochasticity.Evolutionary history of glucose-6-phosphatase encoding genes in vertebrate lineages: towards a better understanding of the functions of multiple duplicates.High dietary lipid level is associated with persistent hyperglycaemia and downregulation of muscle Akt-mTOR pathway in Senegalese sole (Solea senegalensis).Comparison of glucose and lipid metabolic gene expressions between fat and lean lines of rainbow trout after a glucose load.Postprandial regulation of hepatic microRNAs predicted to target the insulin pathway in rainbow trout.Macronutrient composition of the diet affects the feeding-mediated down regulation of autophagy in muscle of rainbow trout (O. mykiss).Metabolism and fatty acid profile in fat and lean rainbow trout lines fed with vegetable oil: effect of carbohydratesThe positive impact of the early-feeding of a plant-based diet on its future acceptance and utilisation in rainbow troutHigh or low dietary carbohydrate:protein ratios during first-feeding affect glucose metabolism and intestinal microbiota in juvenile rainbow trout.Molecular pathways associated with the nutritional programming of plant-based diet acceptance in rainbow trout following an early feeding exposure.Remodelling of the hepatic epigenetic landscape of glucose-intolerant rainbow trout (Oncorhynchus mykiss) by nutritional status and dietary carbohydratesNutritional regulation of hepatic glucose metabolism in fish.Metabolic consequences of microRNA-122 inhibition in rainbow trout, Oncorhynchus mykiss.Glucose metabolism in fish: a review.Nutritional regulation of glucokinase: a cross-species story.How Tom Moon's research highlighted the question of glucose tolerance in carnivorous fish.Effects of insulin infusion on glucose homeostasis and glucose metabolism in rainbow trout fed a high-carbohydrate diet.Glucose homeostasis in rainbow trout fed a high-carbohydrate diet: metformin and insulin interact in a tissue-dependent manner.Metformin improves postprandial glucose homeostasis in rainbow trout fed dietary carbohydrates: a link with the induction of hepatic lipogenic capacities?Postprandial kinetics of gene expression of proteins involved in the digestive process in rainbow trout (O. mykiss) and impact of diet composition.Looking at the metabolic consequences of the colchicine-based in vivo autophagic flux assayHepatic fatty acid biosynthesis is more responsive to protein than carbohydrate in rainbow trout during acute stimulations.Glucose metabolism and gene expression in juvenile zebrafish (Danio rerio) challenged with a high carbohydrate diet: effects of an acute glucose stimulus during late embryonic life.Cloning and nutritional regulation of a Delta6-desaturase-like enzyme in the marine teleost gilthead seabream (Sparus aurata).Characterization and comparison of fatty acyl Delta6 desaturase cDNAs from freshwater and marine teleost fish species.Reduced lipid intake leads to changes in digestive enzymes in the intestine but has minor effects on key enzymes of hepatic intermediary metabolism in rainbow trout ( Oncorhynchus mykiss).Insulin-induced hypoglycaemia is co-ordinately regulated by liver and muscle during acute and chronic insulin stimulation in rainbow trout (Oncorhynchus mykiss).Integration of insulin and amino acid signals that regulate hepatic metabolism-related gene expression in rainbow trout: role of TOR.Molecular regulation of lipid metabolism in liver and muscle of rainbow trout subjected to acute and chronic insulin treatments.Glucose homeostasis is impaired by a paradoxical interaction between metformin and insulin in carnivorous rainbow trout.Rainbow trout genetically selected for greater muscle fat content display increased activation of liver TOR signaling and lipogenic gene expression.Hepatic protein kinase B (Akt)-target of rapamycin (TOR)-signalling pathways and intermediary metabolism in rainbow trout (Oncorhynchus mykiss) are not significantly affected by feeding plant-based diets.Glucose metabolic gene expression in growth hormone transgenic coho salmon.Rearing temperature enhances hepatic glucokinase but not glucose-6-phosphatase activities in European sea bass (Dicentrarchus labrax) and gilthead sea bream (Sparus aurata) juveniles fed with the same level of glucose.Muscle insulin binding and plasma levels in relation to liver glucokinase activity, glucose metabolism and dietary carbohydrates in rainbow trout.Effect of partial substitution of dietary protein by a single gluconeogenic dispensable amino acid on hepatic glucose metabolism in rainbow trout (Oncorhynchus mykiss).Acute endocrine and nutritional co-regulation of the hepatic omy-miRNA-122b and the lipogenic gene fas in rainbow trout, Oncorhynchus mykiss.Hepatic gene expression profiles in juvenile rainbow trout (Oncorhynchus mykiss) fed fishmeal or fish oil-free diets.
P50
Q28744383-9F7BCD9A-C844-4528-BAE8-AA54DCCACF07Q30377058-C112D870-BFED-4DD6-BF23-23F85C83515EQ30997312-999011BE-DBFE-472A-832B-140B681F7845Q33629761-6C90D9F1-3BF4-4115-9F1B-17C166201396Q33921401-B95DCC4E-4114-43E3-9022-5F12D754AF31Q34070853-5685510E-199A-422F-B6FD-5F21BB1B28A1Q34305614-947BE69A-0AB0-4F40-BB99-44AFF95FE013Q34999109-3182ACA4-9DD6-4500-B2C2-191F0F600E35Q35017012-D9D14BD2-ED63-4FDA-8B43-06630F351455Q35080209-5380D522-05FD-4CC2-BACB-45A803ECC539Q35293621-B5769095-1A14-4EA2-A393-3D583626465DQ36050749-E608990F-A676-462C-AC69-AB842F86D1BEQ37209146-5845D999-6C68-4EDD-ADAB-E51862025B4CQ37268927-DD68F064-7B85-479E-BCD1-AB0F4A8EF9CCQ37556029-CB44FD62-5A46-497B-80E9-B0E4F07214E3Q38000054-38FFADB6-D8E2-4D7F-B80D-B7C36F23D405Q38217531-0D1A864E-2156-418F-A51F-4A734168ABFAQ38420676-A1660F87-D22A-4BC0-890E-EE72A0F0E022Q38479289-3900461E-F93A-480D-94A7-3FA550EE484BQ38479787-78F6EB87-D126-4D75-B0BB-B419D0D450CFQ38494077-50B0AF7D-90E3-4566-A011-4C21728C78D8Q39964856-3F35DB6F-4560-4775-BD26-0A79EDBEF317Q39978279-4A8308CB-D884-45A6-9A3F-A25A63F6EE69Q40404141-00C6AFE1-EFD1-4927-88EB-47619E07228DQ41547545-C648B9B3-5338-42F3-8C35-83A5A37AF9E5Q42602446-4674F71B-82E5-4C89-BF96-90A5ABD57385Q42637478-59BBB6DA-DC2B-47E4-BDAC-6225A2A821CFQ42719843-4462F505-D79C-4410-8010-0143241E39E7Q43094874-7543B6C8-D7F6-4187-A8F0-2E5A15BFB2E2Q43137725-FC1DF73A-9785-48A3-85C7-2D8775A9A165Q43151127-8CE0C1CB-3946-43C2-8E05-9DB1C73CBDE6Q43268961-1FA49439-366B-48CA-988A-573C7CAF823DQ43285280-33AB4858-3504-46A1-B9C4-E3BE1705B461Q43296238-0701D4BD-D917-4525-88CA-7044CBA52C68Q43602483-E9033454-8C3C-4B06-B250-363836DE6CE7Q44105910-49CDC086-0003-41AC-AB1B-151978E9679DQ44277691-C8832D0A-7FD4-4ED0-A3EE-99C82A92DD71Q44290732-4AC07ACB-7698-4A4F-9D02-CCDB46EA4864Q44334275-23553884-64E4-4A50-BDE6-CD9256A6395AQ45059671-C807978E-1A5F-4E8F-9EC1-E85D7E67A2F9
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Stéphane Panserat
@ast
Stéphane Panserat
@en
Stéphane Panserat
@es
Stéphane Panserat
@nl
Stéphane Panserat
@sl
type
label
Stéphane Panserat
@ast
Stéphane Panserat
@en
Stéphane Panserat
@es
Stéphane Panserat
@nl
Stéphane Panserat
@sl
prefLabel
Stéphane Panserat
@ast
Stéphane Panserat
@en
Stéphane Panserat
@es
Stéphane Panserat
@nl
Stéphane Panserat
@sl
P106
P1153
7004125650
P21
P31
P496
0000-0002-4479-9868