about
The grey mouse lemur uses season-dependent fat or protein sparing strategies to face chronic food restrictionThermodynamics of weight loss dietsTrade-offs between acquired and innate immune defenses in humansEndocrine regulation of fetal skeletal muscle growth: impact on future metabolic healthRecapitulation of metabolic defects in a model of propionic acidemia using patient-derived primary hepatocytesGlucose regulation of load-induced mTOR signaling and ER stress in mammalian heart.Tracers to investigate protein and amino acid metabolism in human subjects.A weak link in metabolism: the metabolic capacity for glycine biosynthesis does not satisfy the need for collagen synthesis.Obesity and the metabolic response to severe multiple trauma in manInfection, inflammation, height, and longevityEffects of pharmacological interventions on muscle protein synthesis and breakdown in recovery from burns.Mass-Specific Metabolic Rate Influences Sperm Performance through Energy Production in MammalsHumoral mediation for cachexia in tumour-bearing rats.Control of respiration and ATP synthesis in mammalian mitochondria and cellsCalcification in marine molluscs: how costly is it?Nutrient interactions with reference to amino acid and protein metabolism in non-ruminants; particular emphasis on protein-energy relations in man.Uniformly 13C-labeled algal protein used to determine amino acid essentiality in vivo.Quantifying Beta-Galactosylceramide Kinetics in Cerebrospinal Fluid of Healthy Subjects Using Deuterium Labeling.Optimizing amino acid and protein supply and utilization in the newborn.Local translation in neuronal compartments: how local is local?The effect of splenectomy on whole body protein turnover in homozygous sickle cell disease.Adaptation to a marginal intake of energy in young children.Catabolism of intracellular protein: molecular aspects.Associations between male testosterone and immune function in a pathogenically stressed forager-horticultural population.Amino Acid Oxidation Increases with Dietary Protein Content in Adult Neutered Male Cats as Measured Using [1-13C]Leucine and [15N2]Urea.Protein and amino acid metabolism in cancer cachexia: investigative techniques and therapeutic interventions.Regulation of energy metabolism in liver.Protein synthesis during hypoxia in fetal lambs.Isotope-based analysis of modified tRNA nucleosides correlates modification density with translational efficiencyUrea as a nutrient: bioavailability and role in nitrogen economyResponses to nutrients in farm animals: implications for production and quality.Early development of protein metabolic perturbations in the liver and skeletal muscle of tumour-bearing rats. A model system for cancer cachexia.Allometric cascade as a unifying principle of body mass effects on metabolism.Vampire bat, shrew, and bear: comparative physiology and chronic renal failure.Dietary protein adequacy and lower body versus whole body resistive training in older humans.Protein kinetics in stable heart failure patients.Branched-chain amino acid supplementation during bed rest: effect on recovery.Whole-body protein turnover of a carnivore, Felis silvestris catus.Dietary protein content affects isotopic carbon and nitrogen turnover.Substrate efficacy in early nutrition support of critically ill multiple trauma victims.
P2860
Q21091153-B55C0572-A23B-4E5B-8026-1A16EDA2A78BQ24557567-1BAEF4B7-D760-429D-B914-AF26DA842B65Q26770411-BB89F290-1640-4B28-A79A-5CBEAD32BA9BQ26827346-B9DB5CF1-8C52-44E3-80EF-F7FB9C71F27DQ30277795-04ADE645-B53B-48B6-A96A-E499A597DE6FQ30417331-29FC493E-0A88-409E-A3DC-BB16194278D4Q30872096-5FF236D4-7744-44B4-9191-687FCE18BF02Q34094169-FA5FB55A-9D17-4752-A05B-4F6BA935635EQ34177522-6A3D16C6-ECD5-45E7-B3CA-A8A4B219D376Q34249615-66163873-97C0-4CB4-8D58-C9B0CEEC71C1Q35561653-A0567E97-34AF-403A-8AB5-A6FE5DE6FD93Q35775648-175A2B59-4CDB-40B0-B18F-4180B4102519Q35975846-9F9904E3-3847-45FE-B800-EE95C40EC411Q36182305-7CF09736-28A1-4526-947B-074187FA7D03Q36836780-406DA6D1-0734-439B-91B3-F4E66F00F0D3Q36949326-170016FD-CAED-46DE-9DC6-EB40A8596DC5Q37594296-97DE4B66-37D8-47CF-884E-B897D8582F70Q37700656-702E634B-4324-47DE-9E01-DD59EFF000C8Q38701590-C1C440FA-F717-4EEF-AAB2-5523E1C9E78CQ38731026-85AFA7BE-C21D-457E-BD40-C5392E42DCD8Q38886954-D4B7ACAD-13E0-43A2-91BB-45619264A803Q39128381-C0242BC1-FB9C-4F1F-999F-BE09E83568A1Q39503871-DCFFA790-2819-4771-8DF1-0B01F54EA47DQ39552587-D824A057-C767-4AB9-A3BD-7F21B9A3B627Q40556429-BC3CF16E-4F4E-456D-A4E8-9D51562CDF36Q40789958-15C06DD3-5BB3-40A5-ABAB-F1FAB56377DAQ41069684-78B3AA35-90A2-48B5-8014-4F46DE696E71Q41455137-09E11A0F-2958-4C11-9ED5-45731ACCDEC3Q42458324-8E15DF1A-A27D-43CC-9B56-65FA8D5CC015Q42584563-570352E4-8C3F-4DE4-ADD6-3E170F849433Q42719842-45F1C2F9-2F60-40CF-AE85-C8BD838F0FA5Q42855211-5174AD89-3956-4E3E-928B-08D459FB85EEQ43986725-FBF82760-F4AA-4E13-8DEE-F77A7AC64CF9Q43993525-B604628D-8B6F-41E5-A566-6D9355852E5FQ44067102-225CDA48-B1AE-4F14-93B6-F9C010E4CBA5Q44187525-7C828D89-2F38-432C-9A4F-5FF696C81346Q44241908-68033C4C-5A12-448F-9F92-6EF0F4BDDEA8Q44303445-1EEBDBDC-3FED-4A5A-B7BA-CC117D16E22DQ44369306-B39809F3-ED4A-4261-AB03-EAD3F4562F85Q44411409-06F776B7-2A94-49AC-A5B0-DBDA4ECF024E
P2860
description
1984 nî lūn-bûn
@nan
1984年の論文
@ja
1984年論文
@yue
1984年論文
@zh-hant
1984年論文
@zh-hk
1984年論文
@zh-mo
1984年論文
@zh-tw
1984年论文
@wuu
1984年论文
@zh
1984年论文
@zh-cn
name
Protein turnover with special reference to man.
@en
type
label
Protein turnover with special reference to man.
@en
prefLabel
Protein turnover with special reference to man.
@en
P1476
Protein turnover with special reference to man.
@en
P2093
Waterlow JC
P304
P356
10.1113/EXPPHYSIOL.1984.SP002829
P577
1984-07-01T00:00:00Z