Formation of molecular species of mitochondrial cardiolipin. 1. A novel transacylation mechanism to shuttle fatty acids between sn-1 and sn-2 positions of multiple phospholipid species
about
Mitochondria targeting of non-peroxidizable triphenylphosphonium conjugated oleic acid protects mouse embryonic cells against apoptosis: role of cardiolipin remodelingCharacterization of tafazzin splice variants from humans and fruit fliesBarth Syndrome: From Mitochondrial Dysfunctions Associated with Aberrant Production of Reactive Oxygen Species to Pluripotent Stem Cell StudiesLipid Acyl Chain Remodeling in YeastDeacylation on the matrix side of the mitochondrial inner membrane regulates cardiolipin remodeling.Mechanism for Remodeling of the Acyl Chain Composition of Cardiolipin Catalyzed by Saccharomyces cerevisiae TafazzinToward total structural analysis of cardiolipins: multiple-stage linear ion-trap mass spectrometry on the [M - 2H + 3Li]+ ionsMonolysocardiolipin: improved preparation with high yieldDisorders of phospholipid metabolism: an emerging class of mitochondrial disease due to defects in nuclear genesDietary macronutrients modulate the fatty acyl composition of rat liver mitochondrial cardiolipinsCardiolipin remodeling: a regulatory hub for modulating cardiolipin metabolism and functionThe complexity of cardiolipin in health and diseaseDynamic simulation of cardiolipin remodeling: greasing the wheels for an interpretative approach to lipidomics.The role of calcium-independent phospholipase A2 in cardiolipin remodeling in the spontaneously hypertensive heart failure rat heartAge-related decline in mitochondrial bioenergetics: does supercomplex destabilization determine lower oxidative capacity and higher superoxide production?A mathematical model for the determination of steady-state cardiolipin remodeling mechanisms using lipidomic data.Inhibition of delta-6 desaturase reverses cardiolipin remodeling and prevents contractile dysfunction in the aged mouse heart without altering mitochondrial respiratory function.Mitochondrial loss, dysfunction and altered dynamics in Huntington's diseaseGlycerophosphate/Acylglycerophosphate acyltransferases.The functions of cardiolipin in cellular metabolism-potential modifiers of the Barth syndrome phenotypeTurnover of nonessential fatty acids in cardiolipin from the rat heart.Tafazzin senses curvature.New clinical and molecular insights on Barth syndromeIntra-individual plasticity of the TAZ gene leading to different heritable mutations in siblings with Barth syndromeThe physical state of lipid substrates provides transacylation specificity for tafazzinThe role of cardiolipin in the structural organization of mitochondrial membranes.Formation and regulation of mitochondrial membranes.Advances in the understanding of Barth syndrome.Lipid transport between the endoplasmic reticulum and mitochondria.Cardiolipin and mitochondrial cristae organization.The Basis for Acyl Specificity in the Tafazzin Reaction.Barth Syndrome: Connecting Cardiolipin to Cardiomyopathy.Structural and functional analyses of Barth syndrome-causing mutations and alternative splicing in the tafazzin acyltransferase domain.Cardiolipin molecular species with shorter acyl chains accumulate in Saccharomyces cerevisiae mutants lacking the acyl coenzyme A-binding protein Acb1p: new insights into acyl chain remodeling of cardiolipin.Mis-sesnse mutations in Tafazzin (TAZ) that escort to mild clinical symptoms of Barth syndrome is owed to the minimal inhibitory effect of the mutations on the enzyme function: In-silico evidence.Acyl chain remodeling of CLEndurance training ameliorates complex 3 deficiency in a mouse model of Barth syndrome.Reversible temperature-dependent differences in brown adipose tissue respiration during torpor in a mammalian hibernator.MLCL and PC are converted to CL and 1-acyl LPC by TAZ (IM) (Reversible)CL and 1-acyl LPC are converted to MLCL and PC by TAZ (IM) (Reversible)
P2860
Q23924135-084F0C5C-5EEC-46E9-A091-49021DF4DB55Q24652344-E54AC05B-B400-4248-B5D8-37D763793E9FQ26772690-2A77DDF1-017B-4AFD-8475-A3AA611411C0Q26773169-A5378C21-779E-4C95-823C-AC381DBFC1B3Q27932861-3B0DD1D3-A302-4C56-88EE-D57A200959BBQ27939541-CEFC68EA-E58B-4802-A82F-EBECF7A9418DQ28384725-3694D388-09C0-42C4-9058-69F469AD44ABQ28385844-4F682EDC-89EF-4183-9422-3C816A91BF0AQ28387241-78D2D6F4-48B2-4FE7-8106-9A8B911C72EFQ28388441-4C9CA8A7-5E75-4FB0-9A03-EEB1734BFACBQ28395178-20362300-502B-4B25-81A8-99BBC0B03DC8Q28395624-566A23DC-ECF1-46FA-A7C7-451BB165ADC0Q30495485-3D8E743E-9473-4B98-A199-83B066FF3480Q33634137-266C4E72-FD8C-4549-A685-82EE60CEBF21Q33897468-7A77018E-E7BB-40CF-AEA2-CC1BD0100DCAQ33939499-5A41BA83-94F1-4A63-A638-B4FE0389686BQ33952611-1E79C5DB-DCB7-4DC5-8C44-635222845C30Q34163054-DE5B128B-C050-4F91-B178-AB58E59F8E20Q34792406-1DCD802A-C785-4091-AC7E-6F8D895DB6FDQ35128445-3FF81A08-39D3-4EB6-9083-A729BBF50867Q35768573-409B0F2F-3764-401D-8C95-FA9600325A58Q36340909-A74BF6A6-5E9D-4291-A749-A7AB64259266Q36689686-B5CCBBFC-B9B1-4B5C-9CC2-B3CA6CA1E4B8Q36695694-EA8080B6-7B0D-43BE-9177-EA3633E88B04Q36975948-54C414EE-B2EB-410D-B78E-68E599F584C1Q37376400-965A9D52-F70A-442A-8B09-2A667890E642Q37571518-B31755F2-4DEE-4DB2-967E-394D7AFBFF67Q38083725-761E0505-460B-4D3D-8D66-1F8A097FF1D4Q38111617-7DE97479-D970-48B5-B87C-073867DFD655Q38881323-5E3BA65E-6EDC-42A9-883B-334BAA8ADD8BQ38959423-BB4E0B3A-D046-4A32-9F9A-35A2DBCF0C2EQ39077752-D375FCAD-EF58-4895-8E1F-B40CE5601A1CQ40028882-C3DE365E-AC52-4060-A607-E750F682A0AAQ42684081-3647BD7B-5015-41D1-8C40-138CA16180C3Q45245380-1EB7685C-3E36-4A22-954E-B5596158CE43Q45317293-24EC7F49-FFC6-4403-AF60-581EC318ACA6Q46745637-ECFA9F3B-3F23-42FF-BE87-042481D887F6Q48000502-2BFC9C4B-B527-42D1-A93C-2AB2F57B0CD6Q50293882-8D195A51-6110-47C5-B175-756D9524FB6EQ50293883-CE3769AE-276A-471A-B52E-C2FCE3D38189
P2860
Formation of molecular species of mitochondrial cardiolipin. 1. A novel transacylation mechanism to shuttle fatty acids between sn-1 and sn-2 positions of multiple phospholipid species
description
2009 nî lūn-bûn
@nan
2009 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Formation of molecular species ...... multiple phospholipid species
@ast
Formation of molecular species ...... multiple phospholipid species
@en
Formation of molecular species ...... multiple phospholipid species
@nl
type
label
Formation of molecular species ...... multiple phospholipid species
@ast
Formation of molecular species ...... multiple phospholipid species
@en
Formation of molecular species ...... multiple phospholipid species
@nl
prefLabel
Formation of molecular species ...... multiple phospholipid species
@ast
Formation of molecular species ...... multiple phospholipid species
@en
Formation of molecular species ...... multiple phospholipid species
@nl
P2093
P2860
P921
P1476
Formation of molecular species ...... multiple phospholipid species
@en
P2093
Ashim Malhotra
Mindong Ren
P2860
P304
P356
10.1016/J.BBALIP.2009.01.004
P407
P577
2009-04-01T00:00:00Z