Inhibition of electron flow through complex I of the mitochondrial respiratory chain of Ehrlich ascites carcinoma cells by methylglyoxal.
about
Prognostic potential and tumor growth-inhibiting effect of plasma advanced glycation end products in non-small cell lung carcinoma.Methylglyoxal alters the function and stability of critical components of the protein quality control.Comprehensive measurement of respiratory activity in permeabilized cells using extracellular flux analysisA novel controllable hydrogen sulfide-releasing molecule protects human skin keratinocytes against methylglyoxal-induced injury and dysfunction.Nanofabrication of methylglyoxal with chitosan biopolymer: a potential tool for enhancement of its anticancer effectMolecular association of glucose-6-phosphate isomerase and pyruvate kinase M2 with glyceraldehyde-3-phosphate dehydrogenase in cancer cells.AMP-activated protein kinase alpha2 deficiency affects cardiac cardiolipin homeostasis and mitochondrial function.Pathological significance of mitochondrial glycationArabidopsis thaliana Contains Both Ni2+ and Zn2+ Dependent Glyoxalase I Enzymes and Ectopic Expression of the Latter Contributes More towards Abiotic Stress Tolerance in E. coli.Robust glyoxalase activity of Hsp31, a ThiJ/DJ-1/PfpI family member protein, is critical for oxidative stress resistance in Saccharomyces cerevisiae.Methylglyoxal suppresses human colon cancer cell lines and tumor growth in a mouse model by impairing glycolytic metabolism of cancer cells associated with down-regulation of c-Myc expression.A mitochondria-targeted mass spectrometry probe to detect glyoxals: implications for diabetes.Glycative stress from advanced glycation end products (AGEs) and dicarbonyls: An emerging biological factor in cancer onset and progression.Inhibition of Methylglyoxal-Induced AGEs/RAGE Expression Contributes to Dermal Protection by N-Acetyl-L-Cysteine.Preserving Brain Function in Aging: The Anti-glycative Potential of Berry Fruit.Selenium pretreatment upregulates the antioxidant defense and methylglyoxal detoxification system and confers enhanced tolerance to drought stress in rapeseed seedlings.Multiple abiotic stress tolerance in Vigna mungo is altered by overexpression of ALDRXV4 gene via reactive carbonyl detoxification.Protective effect of creatine against inhibition by methylglyoxal of mitochondrial respiration of cardiac cells.Selective inhibition of mitochondrial respiration and glycolysis in human leukaemic leucocytes by methylglyoxalEssentiality of nickel in plants: a role in plant stresses.Analysis of global gene expression profile of rice in response to methylglyoxal indicates its possible role as a stress signal molecule.Purification of glyoxalase I from onion bulbs and molecular cloning of its cDNA.Alterations in renal mitochondrial respiration in response to the reactive oxoaldehyde methylglyoxal.Biological activity of antitumoural MGBG: the structural variable.GLYI and D-LDH play key role in methylglyoxal detoxification and abiotic stress tolerance.Non-enzymatic glycation of α-crystallin as an in vitro model for aging, diabetes and degenerative diseases.Modulation of glyceraldehyde-3-phosphate dehydrogenase activity by surface functionalized quantum dots.Structural characterization and functional validation of aldose reductase from the resurrection plant Xerophyta viscosa.Overproduction of a rice aldo-keto reductase increases oxidative and heat stress tolerance by malondialdehyde and methylglyoxal detoxification.Glyceraldehyde-3-phosphate dehydrogenase from Ehrlich ascites carcinoma cells its possible role in the high glycolysis of malignant cells.
P2860
Q30318385-0067C793-8E73-4EB6-ABCC-E093D215CCD4Q33707561-6C998113-7AC4-4F34-87D9-D3E7512FBB99Q33776986-ED0758BD-2F1F-436A-9473-8DDC8110C105Q34381184-5D6AEA81-C979-4AAA-9462-FFE6516C92D1Q35618088-60BC9E30-6A46-4218-A15E-A22A6A0589D4Q35934833-949495B1-F929-46D4-8C79-A3FDAA730314Q35956487-8CA3D4AB-FC27-49BC-A1BF-8936DDECEC60Q36072507-A0665FF4-6C4C-4779-B102-6B817429A70BQ36077710-F811DF6D-C5E6-455C-B91D-EED17580DC3CQ36283681-D1AEF5D5-12B4-4037-A554-2E392AAC4906Q37283010-53EB2BC6-62B8-40EA-A6F5-0BCB1228BBC6Q38647043-31822463-D484-4510-AF58-2F55885D2995Q38698770-643BF7A5-A24A-47D2-9578-8A93C64003EAQ38715864-7C588714-75A9-46A1-A35F-6A08B1F84852Q38831717-D23670CC-E7C1-44FC-A2B6-B9F678C32C0AQ39052099-461BB3A8-05FD-4266-BF91-B367C8DB1CC8Q39467204-774036E9-B286-4E1E-A908-D6EC9F913B7AQ41814717-317C066B-878A-4D24-974A-3B10DAB80FCFQ41951110-13783664-A54D-4B3B-A54A-2ECE98F005DFQ42069702-E7F93F47-9464-4710-9D22-0B88C4EB9AADQ42581057-3B6588ED-B951-4DD9-A431-38D08A61391BQ43280193-0BEAAAC1-D02C-4931-9BF7-EC061163691EQ44024811-B316BD79-B54A-487E-B10B-077231A30A41Q46840022-FF068152-340F-4463-BA5C-FADFE9CADC6AQ52608926-F68C27F6-C2F3-4864-80F8-46B7B4758E33Q53405754-3CC30377-8E3A-41FC-B45E-D76251B8C8D2Q53626296-476340CF-384A-42FE-B087-815C074C780FQ54287057-73A83586-747B-4351-AA87-28211AB80F4BQ54371888-6510425B-D999-48B3-B641-FC1A69AB6DF3Q55033058-39069B6B-7642-44CC-9423-32031540FDC9
P2860
Inhibition of electron flow through complex I of the mitochondrial respiratory chain of Ehrlich ascites carcinoma cells by methylglyoxal.
description
1994 nî lūn-bûn
@nan
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
1994年论文
@zh
1994年论文
@zh-cn
name
Inhibition of electron flow th ...... cinoma cells by methylglyoxal.
@en
type
label
Inhibition of electron flow th ...... cinoma cells by methylglyoxal.
@en
prefLabel
Inhibition of electron flow th ...... cinoma cells by methylglyoxal.
@en
P2093
P2860
P356
P1433
P1476
Inhibition of electron flow th ...... cinoma cells by methylglyoxal.
@en
P2093
P2860
P356
10.1042/BJ3030069
P407
P478
303 ( Pt 1)
P577
1994-10-01T00:00:00Z