about
Cloning and developmental expression of a nuclear ubiquitin-conjugating enzyme (DmUbc9) that interacts with small heat shock proteins in Drosophila melanogasterEffects of short-term normobaric hypoxia on haematology, muscle phenotypes and physical performance in highly trained athletes.Effects of experimental weight perturbation on skeletal muscle work efficiency, fuel utilization, and biochemistry in human subjects.Effects of weight loss and leptin on skeletal muscle in human subjects.Mitochondrial dysregulation in the pathogenesis of diabetes: potential for mitochondrial biogenesis-mediated interventions.G0/G1 Switch Gene 2 controls adipose triglyceride lipase activity and lipid metabolism in skeletal muscleRecent evolution in demographic and clinical characteristics and in-hospital morbidity in patients undergoing coronary surgery.Defective Natriuretic Peptide Receptor Signaling in Skeletal Muscle Links Obesity to Type 2 Diabetes.Cardiorespiratory fitness and components of the metabolic syndrome in sedentary men.Mid-thigh subcutaneous adipose tissue and glucose tolerance in the Quebec family study.Validation of a simple index (SIisOGTT) of insulin sensitivity in a population of sedentary men.Relation between in vivo and in vitro measurements of skeletal muscle oxidative metabolism.Skeletal muscle characteristics predict body fat gain in response to overfeeding in never-obese young men.Associations between cardiorespiratory responses to exercise and the C34T AMPD1 gene polymorphism in the HERITAGE Family Study.Effects of intense and prolonged exercise on insulin sensitivity and glycogen metabolism in hypertensive subjects.Shift in metabolic fuel in acylation-stimulating protein-deficient mice following a high-fat diet.Reduction of type IIb myosin and IIB fibers in tibialis anterior muscle of mini-muscle mice from high-activity lines.Effect of weight loss on lactate transporter expression in skeletal muscle of obese subjects.Effects of experimental weight perturbation on skeletal muscle work efficiency in human subjects.Milk supplementation facilitates appetite control in obese women during weight loss: a randomised, single-blind, placebo-controlled trial.Familial resemblance for muscle phenotypes in the HERITAGE Family Study.Adaptation of the diaphragm and the vastus lateralis in mild-to-moderate COPD.Predictors of cardiovascular fitness in sedentary men.Cardioprotective effects of glucose and insulin administration while maintaining normoglycemia (GIN therapy) in patients undergoing coronary artery bypass grafting.Oxidative damage and antioxidants in Rana sylvatica, the freeze-tolerant wood frog.Altered fibre types in gastrocnemius muscle of high wheel-running selected mice with mini-muscle phenotypes.11beta-HSD1 inhibition improves triglyceridemia through reduced liver VLDL secretion and partitions lipids toward oxidative tissues.Gene expression of different adipose tissues of severely obese women with or without a dysmetabolic profile.Increased fat accumulation in liver may link insulin resistance with subcutaneous abdominal adipocyte enlargement, visceral adiposity, and hypoadiponectinemia in obese individuals.Oxidative stress and antioxidants in stress and recovery of cold-hardy insectsMuscle adiposity and body fat distribution in type 1 and type 2 diabetes: varying relationships according to diabetes type.[Statin intolerance and associated muscular dysfunctions].Fitness, adiposopathy, and adiposity are independent predictors of insulin sensitivity in middle-aged men without diabetes.Oxidative stress and antioxidants in overwintering larvae of cold-hardy goldenrod gall insectsMitochondrial enzymes during overwintering in two species of cold-hardy gall insectsAnthropometric Characteristics Account for Time to Exhaustion in CyclingThe stimulation-induced increase in skeletal muscle glycogen synthase content is impaired in carriers of the glycogen synthase XbaI gene polymorphismElevated intramyocellular lipid concentration in obese subjects is not reduced after diet and exercise trainingSkeletal muscle enzymes as predictors of 24-h energy metabolism in reduced-obese personsFat content in individual muscle fibers of lean and obese subjects
P50
Q28265495-12CB7326-DBE5-4A13-97F2-B9EF2E7C02A8Q33434324-70F8E5CB-7518-483E-81B1-2ABBD060DEBBQ33589530-E39432CE-3653-4874-B4A7-9EFDA719A8F6Q35543435-6D52FA59-308E-43E0-A9E1-AB3F53617C72Q35607344-E2937106-3C41-4A28-931C-AF55D235A81CQ37039708-822197C7-5FB4-4EBD-A90B-36D90EC98F7EQ37402960-084A8282-CF38-4B56-9798-A0249295F71EQ40647072-9D961405-57A9-4C3C-A5AB-6DBD860E9853Q43199720-A52A643A-DCF9-48FA-B7A8-3B1F343DB9BEQ43201032-F7BBD228-A0E7-4B7F-853A-73632F2A4244Q43280294-57901FF4-8797-435A-B869-4EC3C925A22FQ43824996-BCC478D9-2B06-4138-A358-E3F3DB8282DAQ43931749-F9C3D06C-22FB-44EE-841C-E1E5A29A5EB4Q44463986-D5F5B455-A91D-4BA1-BBD5-FC16D0747F3AQ44633961-72CF6B01-AD92-45A7-9054-57B71FB0EA84Q46047439-C715153B-0729-4D12-85FF-FBBB8CE4B8F1Q46141837-75DA55D5-E1B7-453F-9066-9CA9E34A63FAQ46850947-A7EC9D57-24F8-41F7-8EDB-4F4F4E06E6D3Q47172474-8DE940AA-0AAF-4283-BE67-A2227A2F236CQ47397844-675B9A98-83D9-48A6-9F9E-B4D6E0F2AF48Q47712676-14853157-3355-4A4B-9866-D7E0BECF71B7Q47887336-B4A748DD-8FDB-4391-A314-4DB9985BBFD2Q48000572-FA9FA918-10ED-4A7F-AEB6-016E0466E865Q48284195-40AAE484-2F7A-4848-99F7-296B2F938145Q48933213-0927C94B-E7D4-44E2-BEA8-49DCA46D636FQ50661345-2B6F7549-1CC8-4675-BDBC-3F77BAC08AE8Q50685144-ACD183C9-CB2C-4882-9BC9-66DFF21B044BQ51295746-7B310832-22BD-4C18-815C-18DAF7ABBD33Q51454244-7194A833-E241-4D0F-9203-535252616E5DQ53099779-897FBA2D-F74E-4F03-ACD3-C31E9B1D80D6Q53540255-7E511638-DD9F-4B83-A37D-D47119ECCA82Q53649484-0C59DC0B-5C05-49D9-BBBD-E7EF0E76A036Q53787695-06FDD0D9-DFCA-44F0-9300-36B76DFC0890Q57111129-36287307-65A5-4FD5-9AFF-0BC92D4D62A7Q57233664-8E0D77D8-2C42-4501-AA18-A19876B82B1EQ58810908-031EC444-ABC3-4D58-A8F3-638D78C6B198Q73370520-EBF28B6F-1CB8-497D-BC21-9A8F1CA423B1Q73629858-FD203F75-05D9-41FC-826A-28F604170767Q73849349-45A04936-B4C3-46B5-AD51-10A38A1F0CB9Q74554917-B293E70A-F892-43A1-B842-9C6985CC863D
P50
description
chercheur et professeur d'université
@fr
onderzoeker
@nl
researcher and university professor
@en
հետազոտող
@hy
name
Denis R. Joanisse
@ast
Denis R. Joanisse
@en
Denis R. Joanisse
@es
Denis R. Joanisse
@fr
Denis R. Joanisse
@nl
Denis R. Joanisse
@sl
type
label
Denis R. Joanisse
@ast
Denis R. Joanisse
@en
Denis R. Joanisse
@es
Denis R. Joanisse
@fr
Denis R. Joanisse
@nl
Denis R. Joanisse
@sl
altLabel
Denis Joanisse
@en
Denis Joanisse
@fr
prefLabel
Denis R. Joanisse
@ast
Denis R. Joanisse
@en
Denis R. Joanisse
@es
Denis R. Joanisse
@fr
Denis R. Joanisse
@nl
Denis R. Joanisse
@sl
P1053
W-3883-2017
P108
P1153
6701917012
P21
P2798
P31
P3829
P496
0000-0001-9699-0616
P6634
denis-r-joanisse-45638730