Mitochondrial pyruvate transport: a historical perspective and future research directions
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Increased Hydration Can Be Associated with Weight LossAssociation of NKAPL, TSPAN18, and MPC2 gene variants with schizophrenia based on new data and a meta-analysis in Han Chinese.Discovery of Novel Insulin Sensitizers: Promising Approaches and Targets.Global Fitness Profiling Identifies Arsenic and Cadmium Tolerance Mechanisms in Fission YeastThe tuberculosis necrotizing toxin kills macrophages by hydrolyzing NADThe anti-tumour agent lonidamine is a potent inhibitor of the mitochondrial pyruvate carrier and plasma membrane monocarboxylate transporters.Establishment of mitochondrial pyruvate carrier 1 (MPC1) gene knockout mice with preliminary gene function analyses.Metabolomic Studies in Drosophila.The beneficial metabolic effects of insulin sensitizers are not attenuated by mitochondrial pyruvate carrier 2 hypomorphism.Energy metabolism and inflammation in brain aging and Alzheimer's disease.Mitochondrial pyruvate carrier function and cancer metabolism.Targeting hepatic glucose metabolism in the treatment of type 2 diabetes.The Pancreatic β-Cell: A Bioenergetic Perspective.Therapeutic applications of dichloroacetate and the role of glutathione transferase zeta-1.Targeting the mitochondrial pyruvate carrier attenuates fibrosis in a mouse model of nonalcoholic steatohepatitis.Traditional and novel tools to probe the mitochondrial metabolism in health and disease.Functional Properties of the Mitochondrial Carrier System.A high resolution atlas of gene expression in the domestic sheep (Ovis aries).Inhibition of the Mitochondrial Pyruvate Carrier by Tolylfluanid.Enhanced pyruvate production in Candida glabrata by carrier engineering.Decreased Mitochondrial Pyruvate Transport Activity in the Diabetic Heart: ROLE OF MITOCHONDRIAL PYRUVATE CARRIER 2 (MPC2) ACETYLATION.Human mitochondrial pyruvate carrier 2 as an autonomous membrane transporter.13 C metabolic flux profiling of Pichia pastoris grown in aerobic batch cultures on glucose revealed high relative anabolic use of TCA cycle and limited incorporation of provided precursors of branched-chain amino acids.Genetic basis for variation in salinity tolerance between stickleback ecotypes.Fibre sub-type specific conduction reveals metabolic function in mouse sciatic nerve.Targeting energy metabolism via the mitochondrial pyruvate carrier as a novel approach to attenuate neurodegeneration.Adipose tissues of MPC1 mice display altered lipid metabolism-related enzyme expression levels
P2860
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P2860
Mitochondrial pyruvate transport: a historical perspective and future research directions
description
2015 nî lūn-bûn
@nan
2015 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի մարտին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Mitochondrial pyruvate transport: a historical perspective and future research directions
@ast
Mitochondrial pyruvate transport: a historical perspective and future research directions
@en
Mitochondrial pyruvate transport: a historical perspective and future research directions
@nl
type
label
Mitochondrial pyruvate transport: a historical perspective and future research directions
@ast
Mitochondrial pyruvate transport: a historical perspective and future research directions
@en
Mitochondrial pyruvate transport: a historical perspective and future research directions
@nl
prefLabel
Mitochondrial pyruvate transport: a historical perspective and future research directions
@ast
Mitochondrial pyruvate transport: a historical perspective and future research directions
@en
Mitochondrial pyruvate transport: a historical perspective and future research directions
@nl
P2860
P3181
P356
P1433
P1476
Mitochondrial pyruvate transport: a historical perspective and future research directions
@en
P2093
Brian N. Finck
Kyle S. McCommis
P2860
P304
P3181
P356
10.1042/BJ20141171
P407
P577
2015-03-15T00:00:00Z