Modulation of hexokinase association with mitochondria analyzed with quantitative three-dimensional confocal microscopy
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p116Rip decreases myosin II phosphorylation by activating myosin light chain phosphatase and by inactivating RhoAGlial cells in (patho)physiologyNa(+) pump alpha 2-isoform specifically couples to contractility in vascular smooth muscle: evidence from gene-targeted neonatal miceAutomatic and quantitative measurement of protein-protein colocalization in live cells.Identification of pancreatic cancer-specific cell-surface markers for development of targeting ligandsFatty acids in energy metabolism of the central nervous systemCellular origin of hexokinase in pancreatic islets.Multi-image colocalization and its statistical significance.Mannose efflux from the cells: a potential source of mannose in blood.A practical guide to evaluating colocalization in biological microscopy.Emerging metabolic targets in cancer therapyA quantitative method to track protein translocation between intracellular compartments in real-time in live cells using weighted local variance image analysis.Annexin II in exocytosis: catecholamine secretion requires the translocation of p36 to the subplasmalemmal region in chromaffin cells.Anticancer agents that counteract tumor glycolysis.2-Deoxyglucose and cytochalasin D modulate aldolase mobility in living 3T3 cells.Localization of HIV RNA in mitochondria of infected cells: potential role in cytopathogenicityGlucose metabolism and proliferation in glia: role of astrocytic gap junctions.Pathophysiological consequences of TAT-HKII peptide administration are independent of impaired vascular function and ensuing ischemia.19F NMR measurements of the rotational mobility of proteins in vivo.Enhanced targeting with heterobivalent ligandsAstrocytes and energy metabolism.Aspects of astrocyte energy metabolism, amino acid neurotransmitter homoeostasis and metabolic compartmentation.Gene expression profiling-based identification of cell-surface targets for developing multimeric ligands in pancreatic cancer.Metabolism of Mannose in Cultured Primary Rat Neurons.A guide to accurate fluorescence microscopy colocalization measurements.Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart.A reevaluation of the roles of hexokinase I and II in the heart.Direct observation of hexokinase translocation in stimulated macrophages.Regulation of secretory granule pH in insulin-secreting cells.Clearance of store-released Ca2+ by the Na+-Ca2+ exchanger is diminished in aortic smooth muscle from Na+-K+-ATPase alpha 2-isoform gene-ablated mice.Diffusion of D-glucose measured in the cytosol of a single astrocyte.Post-translational Regulation of Hexokinase Function and Protein Stability in the Aestivating Frog Xenopus laevis.BCL2 and BCL(X)L selective inhibitors decrease mitochondrial ATP production in breast cancer cells and are synthetically lethal when combined with 2-deoxy-D-glucose.
P2860
Q24315196-B7787EB5-CA42-41B1-B9AA-730E4F37E367Q27021135-91131319-1C45-4FB6-AE01-A11CAD172B85Q28592391-AC21CB05-6145-43B2-83EB-5F82AC4A8D5DQ29616276-EAB23162-BC81-4FD4-9969-0701046C4494Q33567183-DF46C895-CFB9-4249-B2F0-0E5CD779F23AQ33634475-571F28B3-5509-4C57-A55B-22053C45315FQ33879331-7F9F01B0-661D-4B99-8A9A-3B36142E6E86Q34134669-D12F8E32-B838-452A-B6A3-437313010F28Q34695595-BFDD78CB-982E-47C1-989D-758B6427CC44Q34782140-0F4DE113-2852-4835-9FE4-C9B1E002A7CEQ35052021-43923F25-600E-48BB-BCD1-FE809D836540Q35077523-A3C1FB01-6112-421A-B96C-AE23EDC4512CQ36237099-2D64D0AA-F7BC-4E11-8CAE-3F4441C5C508Q36452381-A34D827B-6761-48F0-8E59-8740337F1FD3Q36531739-BEAF3614-F008-4743-8E8C-FEC2C63CA9E6Q36534947-CDA3485E-ACBB-41C4-A961-FA9EE92ADEE4Q36561137-3FACC4C1-A053-4DA1-AADB-C106D024F519Q36682211-A5235D01-A064-45FD-A3D1-611E00CAEBA9Q36841953-EFE6069D-5D33-4522-8BCA-736A3AA194ABQ36870878-2C970704-542A-48C5-8162-440508E7CC7FQ37826756-2C712219-76B6-443F-8581-B670E1F6153CQ37995668-E695C562-EAB5-4DED-BF14-750C52AAA877Q38287805-E77D4CA9-6A38-46E7-962E-36DE7D0B8C5BQ38874849-120182AA-1D62-4DDD-B2A1-EE7C90B20B75Q40225419-FBBC84C7-73C0-4E60-A8BC-29FF2D674F28Q42230588-2C3145AB-4804-4C02-98AC-FFB45009CB63Q42500846-C01FD65E-F8B0-45A1-B744-EA6286E7AC19Q42797189-619A997B-79AA-4F0D-A411-58F9BE2BEE84Q44054963-C9F58C17-4147-44D3-942F-E7D74421A58EQ46810318-80FB5AB1-CCC6-4C4E-BDC0-5F6C43BFE8E8Q48260767-EBB079CD-DDDB-44DD-BBE2-2D562F3D841AQ55031785-EFA1C4C0-F699-4338-B2E4-ADA603FD3FB8Q55474292-32953881-965C-4822-AB56-432F223D0ABB
P2860
Modulation of hexokinase association with mitochondria analyzed with quantitative three-dimensional confocal microscopy
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
1991年论文
@zh
1991年论文
@zh-cn
name
Modulation of hexokinase assoc ...... imensional confocal microscopy
@ast
Modulation of hexokinase assoc ...... imensional confocal microscopy
@en
type
label
Modulation of hexokinase assoc ...... imensional confocal microscopy
@ast
Modulation of hexokinase assoc ...... imensional confocal microscopy
@en
prefLabel
Modulation of hexokinase assoc ...... imensional confocal microscopy
@ast
Modulation of hexokinase assoc ...... imensional confocal microscopy
@en
P2093
P2860
P356
P1476
Modulation of hexokinase assoc ...... imensional confocal microscopy
@en
P2093
P2860
P304
P356
10.1083/JCB.112.3.385
P407
P577
1991-02-01T00:00:00Z