Glucose metabolism regulates T cell activation, differentiation, and functions.
about
Phosphatidylinositol 4-Phosphate 5-Kinases in the Regulation of T Cell ActivationGlucose Metabolism in T Cells and Monocytes: New Perspectives in HIV PathogenesisMetabolomics in rheumatic diseases: desperately seeking biomarkersModeling-Enabled Systems Nutritional ImmunologyIntegration of Mitochondrial Targeting for Molecular Cancer TherapeuticsT cell metabolism drives immunityA Missed Summer Wave of the 1918-1919 Influenza Pandemic: Evidence From Household Surveys in the United States and Norway.Climatic anomaly affects the immune competence of California sea lions.MPI depletion enhances O-GlcNAcylation of p53 and suppresses the Warburg effect.Viral Escape Mutant Epitope Maintains TCR Affinity for Antigen yet Curtails CD8 T Cell Responses.Perspectives on the evolutionary ecology of arthropod antimicrobial peptides.CellSort: a support vector machine tool for optimizing fluorescence-activated cell sorting and reducing experimental effort.CD46 Activation Regulates miR-150-Mediated Control of GLUT1 Expression and Cytokine Secretion in Human CD4+ T Cells.AMPK Is Essential to Balance Glycolysis and Mitochondrial Metabolism to Control T-ALL Cell Stress and Survival.Transcriptome signature for dampened Th2 dominance in acellular pertussis vaccine-induced CD4(+) T cell responses through TLR4 ligation.A Canonical Correlation Analysis of AIDS Restriction Genes and Metabolic Pathways Identifies Purine Metabolism as a Key Cooperator.A role for Peroxisome Proliferator-Activated Receptor Beta in T cell developmentCaloric restriction preserves memory and reduces anxiety of aging mice with early enhancement of neurovascular functions.miR-125b regulates differentiation and metabolic reprogramming of T cell acute lymphoblastic leukemia by directly targeting A20.Amino-acid transporters in T-cell activation and differentiation.Metabolic reprogramming during hepatitis B disease progression offers novel diagnostic and therapeutic opportunities.Human Leukocyte Antigen (HLA) Peptides Derived from Tumor Antigens Induced by Inhibition of DNA Methylation for Development of Drug-facilitated Immunotherapy.Similarities in the Metabolic Reprogramming of Immune System and EndotheliumIdentification of Iguratimod as an Inhibitor of Macrophage Migration Inhibitory Factor (MIF) with Steroid-sparing Potential.Alterations in cellular metabolism modulate CD1d-mediated NKT-cell responses.Lactate dehydrogenase inhibition: exploring possible applications beyond cancer treatment.Emerging Role and Characterization of Immunometabolism: Relevance to HIV Pathogenesis, Serious Non-AIDS Events, and a Cure.Lactate at the crossroads of metabolism, inflammation, and autoimmunity.Immunometabolism in early and late stages of rheumatoid arthritis.Engineering Chimeric Antigen Receptor T-Cells for Racing in Solid Tumors: Don't Forget the FuelFibroblast-like synoviocyte metabolism in the pathogenesis of rheumatoid arthritis.The mystery behind membrane insertion: a review of the complement membrane attack complexMetabolism-associated danger signal-induced immune response and reverse immune checkpoint-activated CD40+ monocyte differentiation.Partitioning and correlating subgroup characteristics from Aligned Pattern Clusters.Aging of the Immune System. Mechanisms and Therapeutic Targets.Alkaline Cytosolic pH and High Sodium Hydrogen Exchanger 1 (NHE1) Activity in Th9 Cells.A Simple Flow Cytometric Method to Measure Glucose Uptake and Glucose Transporter Expression for Monocyte Subpopulations in Whole Blood.Editorial: T cell regulation by the environment.Regulators of Glucose Metabolism in CD4(+) and CD8(+) T Cells.The RNA-Binding Protein, Polypyrimidine Tract-Binding Protein 1 (PTBP1) Is a Key Regulator of CD4 T Cell Activation.
P2860
Q26744638-5AD77629-7291-4A37-82A3-5BA5CAFFA464Q26747110-B016384A-23E7-496C-B3B6-CBCE41D8AC8EQ26765005-93367114-0FA6-4CC2-8E4D-7B3107459E07Q26766623-C4C25D47-0828-46C9-88DF-2844AABEC673Q26771751-D8294B96-A56F-4B6C-9B06-29EE1DD79C01Q26799575-3F442953-9C73-4B19-B067-6896E06C7BA1Q30385996-3B506E4D-1A63-432F-AB0F-89D8511982BFQ33848247-981BD3A8-8399-4500-A87C-E1D66F0A6754Q33866466-F6D222F9-B49A-4BE0-9BB7-DDD0FD3D6C1AQ35935892-724B97E0-9658-42CC-B19E-952460D88F0DQ36012638-880E346C-7308-4723-97FD-B233AA1727E0Q36229858-7F4C575D-B80B-43E3-B840-319294F566AFQ36555745-C614AF6A-5AB3-4662-A845-C4E964092CC3Q36800650-DDC71438-C4C6-4A58-B747-E24D28EA6ECBQ36841068-D6FF8C03-7981-4825-A6C3-ED79433DA21EQ37100587-6AD6A69F-FD82-4572-A0BB-83558390F2DEQ37294323-DC11B286-7649-48C1-A0C4-B6B2D33C34B1Q37538210-DA4256F9-51EB-41FB-BFCF-3CC9F878599DQ37694685-43E9CE6B-7ACE-427F-B616-2EF5DB101148Q37745334-891E7D1B-B5B2-4D4E-B2CF-7E8EAE87A0B5Q38157135-490043D8-6DDC-4AEE-B01A-B9E876523824Q38390185-436D76FD-819F-403C-8037-29A2A175F697Q38645730-29583418-2362-4239-8EB0-09DAE2ACAFEFQ38735389-CAF12135-9541-496F-86C0-4A5A640264A3Q38764629-4141D9C6-232D-4786-B0A3-61C501D79697Q38800732-EEB0C0C4-8EB9-4C1F-9523-F0ED35EF50FFQ38840473-19524B70-BB88-4F4D-B4BD-818A93E1E515Q39018716-B2FCD130-A4F3-4D1B-999D-5264B4D3A93EQ39209693-1A59DB20-D5C3-4DAF-9C50-F06898649D19Q39249589-5BFCD424-C518-4DD1-A24D-CC0AB40A027BQ39343327-10B7F311-55C3-4F56-B94F-F663C941D104Q39384364-C4C22286-98CE-4D47-B44A-433CDFC9FCD9Q39454807-5AAF2D8C-10D1-48AB-94DA-E4B8EC7A9EFDQ39788275-B7548136-9DEB-4B32-9D16-C7A90534C02EQ40398975-805BB159-8A2C-45F1-99F7-DB3A3D331A32Q40540223-7A38FAE6-841A-4538-8EC9-D95613E724CBQ40555107-1E5F0B2A-76D8-485C-A850-97EB3BB25623Q40607898-CB162DDF-8B94-4ED4-85EF-61416E152787Q40895626-0A78C774-85B8-44CC-BC0A-52BF3BE780AFQ41954955-901A8B84-BCE9-4373-82B9-C56DCA61DDBC
P2860
Glucose metabolism regulates T cell activation, differentiation, and functions.
description
2015 nî lūn-bûn
@nan
2015 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի հունվարին 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
Glucose metabolism regulates T cell activation, differentiation, and functions.
@ast
Glucose metabolism regulates T cell activation, differentiation, and functions.
@en
Glucose metabolism regulates T cell activation, differentiation, and functions.
@nl
type
label
Glucose metabolism regulates T cell activation, differentiation, and functions.
@ast
Glucose metabolism regulates T cell activation, differentiation, and functions.
@en
Glucose metabolism regulates T cell activation, differentiation, and functions.
@nl
prefLabel
Glucose metabolism regulates T cell activation, differentiation, and functions.
@ast
Glucose metabolism regulates T cell activation, differentiation, and functions.
@en
Glucose metabolism regulates T cell activation, differentiation, and functions.
@nl
P2093
P2860
P356
P1476
Glucose metabolism regulates T cell activation, differentiation, and functions
@en
P2093
Clovis S Palmer
Nicole Christian
Suzanne M Crowe
P2860
P356
10.3389/FIMMU.2015.00001
P577
2015-01-22T00:00:00Z