Regulation of adipose branched-chain amino acid catabolism enzyme expression and cross-adipose amino acid flux in human obesity.
about
Milk is not just food but most likely a genetic transfection system activating mTORC1 signaling for postnatal growthThe role of amino acid-induced mammalian target of rapamycin complex 1(mTORC1) signaling in insulin resistanceThe Emerging Role of Branched-Chain Amino Acids in Insulin Resistance and MetabolismMetabolically healthy and unhealthy obese--the 2013 Stock Conference reportThe pathogenic role of persistent milk signaling in mTORC1- and milk-microRNA-driven type 2 diabetes mellitusBranched-chain amino acids in metabolic signalling and insulin resistanceTopographical body fat distribution links to amino acid and lipid metabolism in healthy obese women [corrected].Amino Acid Signatures to Evaluate the Beneficial Effects of Weight Loss.Amino acid homeostasis and signalling in mammalian cells and organisms.Effects of leucine supplementation and serum withdrawal on branched-chain amino acid pathway gene and protein expression in mouse adipocytes.Omental adipose tissue gene expression, gene variants, branched-chain amino acids, and their relationship with metabolic syndrome and insulin resistance in humans.Plasma amino acid profiles are associated with insulin, C-peptide and adiponectin levels in type 2 diabetic patientsNutrimetabolomicsMetabolomic profiles and childhood obesityAdipose tissue monomethyl branched-chain fatty acids and insulin sensitivity: Effects of obesity and weight loss.Inflammation and ER stress regulate branched-chain amino acid uptake and metabolism in adipocytes.Association between arterial stiffness and serum L-octanoylcarnitine and lactosylceramide in overweight middle-aged subjects: 3-year follow-up study.Effects of acute exposure to increased plasma branched-chain amino acid concentrations on insulin-mediated plasma glucose turnover in healthy young subjects.Metabolomic analysis reveals altered skeletal muscle amino acid and fatty acid handling in obese humans.Plasma branched-chain and aromatic amino acid concentration after ingestion of an urban or rural diet in rural Mexican women.Metabolomics Reveals Metabolically Healthy and Unhealthy Obese Individuals Differ in their Response to a Caloric Challenge.Plasma Free Amino Acid Profiles Predict Four-Year Risk of Developing Diabetes, Metabolic Syndrome, Dyslipidemia, and Hypertension in Japanese PopulationAssociation between insulin resistance and plasma amino acid profile in non-diabetic Japanese subjectsCatabolism of Branched Chain Amino Acids Contributes Significantly to Synthesis of Odd-Chain and Even-Chain Fatty Acids in 3T3-L1 Adipocytes.Association of branched and aromatic amino acids levels with metabolic syndrome and impaired fasting glucose in hypertensive patients.Genome-wide patterns of copy number variation in the Chinese yak genomeGlobal deletion of BCATm increases expression of skeletal muscle genes associated with protein turnoverEffects of sex and site on amino acid metabolism enzyme gene expression and activity in rat white adipose tissue.Branched-chain amino acid catabolism fuels adipocyte differentiation and lipogenesisAssociations among the plasma amino acid profile, obesity, and glucose metabolism in Japanese adults with normal glucose tolerance.Weight loss is associated with plasma free amino acid alterations in subjects with metabolic syndrome.Associations between plasma branched-chain amino acids, β-aminoisobutyric acid and body composition.Branched-Chain Amino Acids and Insulin Metabolism: The Insulin Resistance Atherosclerosis Study (IRAS)Serum metabolic biomarkers distinguish metabolically healthy peripherally obese from unhealthy centrally obese individuals.Profiling of plasma metabolites in postmenopausal women with metabolic syndromePlasma amino acid and metabolite signatures tracking diabetes progression in the UCD-T2DM rat model.Relationship between Branched-Chain Amino Acids, Metabolic Syndrome, and Cardiovascular Risk Profile in a Chinese Population: A Cross-Sectional Study.Defects in muscle branched-chain amino acid oxidation contribute to impaired lipid metabolismEffect of Green Tea Extract on Systemic Metabolic Homeostasis in Diet-Induced Obese Mice Determined via RNA-Seq Transcriptome Profiles.Metabolic effects of milk protein intake strongly depend on pre-existing metabolic and exercise status.
P2860
Q24594618-EF7C3052-61E9-463E-9A72-5A8B03AA73EDQ26741046-37E08F14-FBC5-4328-93AF-1074FAA6CBF6Q26744725-999AA3CE-80F3-41C4-BEC0-47C193F20812Q27021552-8D182B9D-6EDA-4348-B940-CB78C27C06ADQ27027262-CAEF4A84-1058-4BD2-80F1-04704BD2684FQ28249276-BB50FF04-3FE8-4970-BF25-F3E33689D91AQ31138912-3E4BE0A4-E44B-456B-90DB-79E399387097Q33623813-96B689D9-C545-4C82-92CC-5C27FA730F10Q33727454-6C14E7AB-2B1F-45F3-9E9B-0854487B0A85Q33933411-6D1EDA45-54A8-47C9-BAD9-8F29999C881CQ34252080-F43E3C2F-FDCD-4A5C-9C78-DE80EFFB7568Q34284251-9E93B1BF-8BC1-46AD-ADF6-0E7EEDE2D3A7Q34471941-C943AAA2-1226-4D99-864B-06178E50B2E6Q34536345-B9AAD008-A7AF-47EC-BE1A-964669D0100DQ35027752-642C6E1D-910A-4D8D-A975-18C8BE38C497Q35140256-B8CC4B62-73B8-4264-9F38-C4D7F19B7417Q35187858-F2E2C3B0-C4E5-494A-AF2D-F4C959EC3E70Q35188031-376B95B9-B2F0-428B-9B87-D0DB062889D7Q35554055-46B35616-E339-4151-A377-8BC6B47A642BQ35718537-199F6ACA-536F-454E-82E1-34BE2676FFA1Q35746294-734CAB4B-BCBD-47C8-8C28-5C115954432DQ35833963-A40D5D12-9F7B-43FE-AB6A-D740D29B1647Q35879306-6A780352-F9A0-4534-8DB2-3CB41725C72FQ35879758-FC732DF4-73D9-4F40-8E6D-3DDB30636355Q35900537-82775038-2858-4CDF-93ED-B2B36FDEDF9AQ36024352-939C1006-1B54-409C-90C6-6C97D1923B02Q36237292-E2006D09-754E-4F1E-B7B4-D0CFC5EFC139Q36286748-D504DA3F-524B-4277-BBC8-66C555169C18Q36386362-4603041B-3989-4B06-8358-DD822B94A5BAQ36476147-B22C8D03-0CE2-4B39-AF73-0CDAA433618CQ36644182-A8DDAC3E-51AF-4288-9BCD-6108DF546BF2Q36686209-B960AB63-41C4-4CFF-A613-556BFEE5CC5DQ36726164-5A7FB0E9-3622-429D-BC12-8EB631BFBF12Q36895715-5F9A95AE-6D9B-4433-BD04-1B33F951E412Q37052539-0280B449-45B2-4F2A-8779-52174D0C05C9Q37070820-57C86821-0F78-43A3-BFF4-140422FAA716Q37159540-95AB07F9-7158-4BD9-A50A-7D7FCD35C96FQ37278842-6DF9747E-86C9-4787-BBB2-FC7FB2E42F68Q37373958-06C7864A-50C1-486C-AC1D-6177C105EEADQ37376589-88ACBEAC-8170-4B6B-88D7-32E6D89166B2
P2860
Regulation of adipose branched-chain amino acid catabolism enzyme expression and cross-adipose amino acid flux in human obesity.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Regulation of adipose branched ...... no acid flux in human obesity.
@en
type
label
Regulation of adipose branched ...... no acid flux in human obesity.
@en
prefLabel
Regulation of adipose branched ...... no acid flux in human obesity.
@en
P2093
P2860
P50
P1476
Regulation of adipose branched ...... no acid flux in human obesity.
@en
P2093
Ahmed Bettaieb
Anthony P Thomas
Christopher J Lynch
Denise E Lackey
Dorothy A Kieffer
Fawaz G Haj
Kristine C Olson
Mohamed Ali
Paska Permana
Pieter J Oort
P2860
P304
P356
10.1152/AJPENDO.00630.2012
P577
2013-03-19T00:00:00Z