Potential role of branched-chain amino acids in glucose metabolism through the accelerated induction of the glucose-sensing apparatus in the liver.
about
Chemoprevention of obesity-related liver carcinogenesis by using pharmaceutical and nutraceutical agentsWhat is metabolic syndrome, and why are children getting it?Reconstruction and analysis of correlation networks based on GC-MS metabolomics data for young hypertensive men.Toward a unifying hypothesis of metabolic syndrome.Alterations of the gut microbiome and metabolome in alcoholic liver diseaseNutraceutical approach for preventing obesity-related colorectal and liver carcinogenesis.Effects of acute exposure to increased plasma branched-chain amino acid concentrations on insulin-mediated plasma glucose turnover in healthy young subjects.Evidence for the Presence of Glucosensor Mechanisms Not Dependent on Glucokinase in Hypothalamus and Hindbrain of Rainbow Trout (Oncorhynchus mykiss)Identification of HNF-4α as a key transcription factor to promote ChREBP expression in response to glucoseBranched-chain amino acids in liver diseases.Serum metabolic profiles in overweight and obese women with and without metabolic syndrome.Branched-chain amino acids as pharmacological nutrients in chronic liver disease.Obesity and hepatocellular carcinoma: targeting obesity-related inflammation for chemoprevention of liver carcinogenesis.Branched-chain amino acid supplementation: impact on signaling and relevance to critical illness.Effects of oral branched-chain amino acids on hepatic encephalopathy and outcome in patients with liver cirrhosis.Pharmaceutical and nutraceutical approaches for preventing liver carcinogenesis: chemoprevention of hepatocellular carcinoma using acyclic retinoid and branched-chain amino acids.Nutritional regulation of glucokinase: a cross-species story.Advanced glycation end products promote ChREBP expression and cell proliferation in liver cancer cells by increasing reactive oxygen species.Dairy Product Consumption Interacts with Glucokinase (GCK) Gene Polymorphisms Associated with Insulin Resistance.Oral branched-chain amino acid granules reduce the incidence of hepatocellular carcinoma and improve event-free survival in patients with liver cirrhosis.Supplementation with branched-chain amino acids ameliorates hypoalbuminemia, prevents sarcopenia, and reduces fat accumulation in the skeletal muscles of patients with liver cirrhosis.Effect of branched-chain amino acid supplementation on insulin resistance and quality of life in chronic hepatitis C patients.Leucine and valine supplementation of low-protein diets for broiler chickens from 21 to 42 days of age.Leucine restores murine hepatic triglyceride accumulation induced by a low-protein diet by suppressing autophagy and excessive endoplasmic reticulum stress.Prognostic Impact of Visceral Fat Amount and Branched-Chain Amino Acids (BCAA) in Hepatocellular Carcinoma.Induced Hyperproteinemia and Its Effects on the Remodeling of Fat Bodies in Silkworm, Bombyx mori.
P2860
Q26772302-DFDD2C7A-9B95-45BE-99CB-64E256965A4CQ28385817-21F912A4-19A1-4E4C-814B-F42493FA7139Q30874878-6E14BD8D-24C2-4F36-B16C-AC3CB7BE18AFQ34255878-BB657C85-6DC8-4288-B2FE-32C238406915Q34508873-7F32E2A5-51B0-41BD-B172-9804A65E3785Q34635693-591DDAA5-4DBF-4D97-A279-C4E223478EA4Q35188031-B2D2CDBF-ABE3-45A0-92AC-C8D3709D0F8FQ35634329-A5BE86E9-3B59-40B3-B4FD-D53CFEDC2B1CQ36748400-3020CC34-38EE-435D-8083-6E479975C783Q37334109-515B80E6-41E9-4A90-BC87-0F8FCE845D3FQ37720807-AE00383F-DA42-470B-B792-97979E7DFB30Q37874555-FF9FED4F-77DE-47E3-88B5-FC3D82919BE1Q38040323-BA16D055-0FEE-4685-9939-BF524CAEFD0EQ38095905-E5FE7F18-6BA9-409C-99B3-633F12AE3514Q38128967-357C94EA-4202-4791-85F4-B00D43CF5EFBQ38165918-F0EF33C9-6BC9-4CE9-B2D3-3533170E6E42Q38217531-2F745EFD-EF8B-4E51-9D8B-C880064C1D26Q41521328-E04B9B49-657D-4F36-BD43-23CBB40A3F2CQ41666231-B8581F14-DED9-4CEE-885F-82D8402F0C5AQ43039590-8E5E1220-C7D4-42E3-8BFB-D3D0E0716A5BQ48031473-008E6EC2-82C9-43B4-B5BD-8896C0D55141Q48513490-A06B1507-0E94-4177-A30A-7DE772B8E7F2Q51467612-38157DF8-C42C-40FA-9E1C-A6C583836560Q51590526-4F5A054A-9B99-4D22-8AC9-FBD527B0AA67Q53214610-9DC8EBB9-644C-470C-BA1C-6DB529E6417AQ53830520-836D5856-849C-4C75-8D33-416199402D2F
P2860
Potential role of branched-chain amino acids in glucose metabolism through the accelerated induction of the glucose-sensing apparatus in the liver.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Potential role of branched-cha ...... ensing apparatus in the liver.
@en
Potential role of branched-cha ...... ensing apparatus in the liver.
@nl
type
label
Potential role of branched-cha ...... ensing apparatus in the liver.
@en
Potential role of branched-cha ...... ensing apparatus in the liver.
@nl
prefLabel
Potential role of branched-cha ...... ensing apparatus in the liver.
@en
Potential role of branched-cha ...... ensing apparatus in the liver.
@nl
P2093
P2860
P356
P1476
Potential role of branched-cha ...... sensing apparatus in the liver
@en
P2093
Kazuhiro Kotoh
Makoto Nakamuta
Masaki Kato
Masayuki Miyazaki
Motoyuki Kohjima
Munechika Enjoji
Nobito Higuchi
Ryoichi Takayanagi
Tetsuhide Ito
P2860
P356
10.1002/JCB.22688
P577
2011-01-01T00:00:00Z