Topography of tyrosine residues and their involvement in peroxidation of polyunsaturated cardiolipin in cytochrome c/cardiolipin peroxidase complexes

Kapralov, Alexandr A.; Yanamala, Naveena; Tyurina, Yulia Y.; Castro, Laura; Samhan-Arias, Alejandro K.; Vladimirov, Yu. A.; Maeda, Akihiro; Weitz, Andrew C.; Peterson, Jim; Mylnikov, Danila; Demicheli, Verónica; Tortora, Verónica; Klein‐Seetharaman, Judith; Radí, Rafael; Kagan, Valerian E.

doi:10.1016/j.bbamem.2011.04.009

Cited by 66 publications

(67 citation statements)

References 42 publications

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“…This represents a potentially rich source of structural features for analysis and prediction of CL-binding sites. CL-protein docking predictions have been used successfully in the structural analysis of CL interactions previously (9,(113)(114)(115)(116) and have been useful in shedding light on the mechanisms governing such interactions. We therefore docked TLCL, the most abundant CL species in mitochondria, to all structures after removing all bound ligands in them, and analyzed the results (see Materials and Methods section).…”

Section: Validity Of Predicted Cl-binding Sitesmentioning

confidence: 99%

Cardiolipin Interactions with Proteins

Planas-Iglesias

Dwarakanath

Mohammadyani

et al. 2015

Biophysical Journal

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124

108

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Cardiolipins (CL) represent unique phospholipids of bacteria and eukaryotic mitochondria with four acyl chains and two phosphate groups that have been implicated in numerous functions from energy metabolism to apoptosis. Many proteins are known to interact with CL, and several cocrystal structures of protein-CL complexes exist. In this work, we describe the collection of the first systematic and, to the best of our knowledge, the comprehensive gold standard data set of all known CL-binding proteins. There are 62 proteins in this data set, 21 of which have nonredundant crystal structures with bound CL molecules available. Using binding patch analysis of amino acid frequencies, secondary structures and loop supersecondary structures considering phosphate and acyl chain binding regions together and separately, we gained a detailed understanding of the general structural and dynamic features involved in CL binding to proteins. Exhaustive docking of CL to all known structures of proteins experimentally shown to interact with CL demonstrated the validity of the docking approach, and provides a rich source of information for experimentalists who may wish to validate predictions.

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Section: Validity Of Predicted Cl-binding Sitesmentioning

confidence: 99%

Cardiolipin Interactions with Proteins

Planas-Iglesias

Dwarakanath

Mohammadyani

et al. 2015

Biophysical Journal

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124

108

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“…The fifth coordination ligand of the heme-Fe atom of cyt c is invariantly His, whereas the sixth coordination ligand exhibits high variability, being Met in horse heart cyt c [1][2][3][4][5][6][7]. The heme-Fe atom of hexa-coordinated native horse heart cyt c is essentially unreactive (or very low reactive), whereas the heme-Fe atom of penta-coordinated cyt c derivatives (i.e., carboxymethylated cyt c (CM-cyt c), cardiolipinbound CM-cyt c (CL-CM-cyt c), and cardiolipin-bound cyt c (CL-cyt c)) displays myoglobin-like spectroscopic and functional properties [7][8][9][10][11][12][13][14][15][16][17][18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

“…1), the sixth heme-Fe coordination ligand being the O atom of a water molecule in the ferric form. Therefore, MPs are heme-model compounds of choice to highlight the modulatory role of the protein matrix and of the heme-Fe atom axial ligation on the spectroscopic, ligand binding, and (pseudo-)enzymatic properties of horse heart cyt c. In particular, MPs represent heme-model compounds of highly reactive penta-coordinated CM-cyt c, CL-CM-cyt c, and CL-cyt c derivatives, the last being involved in apoptosis initiation [7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22].…”

Section: Introductionmentioning

confidence: 99%

NO2−-mediated nitrosylation of ferrous microperoxidase-11

Ascenzi

Sbardella²,

Fiocchetti

et al. 2015

Journal of Inorganic Biochemistry

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“…However, CL can also appear in the OM with numerous biological consequences. It can exchange with mitochondrion-associated endoplasmic reticulum for further CL remodeling or interfere with mitochondrial fusion (16,17), and it can also play a role in apoptotic signaling (by recruiting pro-apoptotic proteins (18 -22)) or mitophagy (3,(23)(24)(25). Despite this importance of mitochondrial CL trafficking, the molecular mechanisms involved and their regulation are poorly defined.…”

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confidence: 99%

Dual Function of Mitochondrial Nm23-H4 Protein in Phosphotransfer and Intermembrane Lipid Transfer

Schlattner

Tokarska‐Schlattner

Ramirez

et al. 2013

Journal of Biological Chemistry

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107

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Background: Nm23-H4 is a mitochondrial nucleoside diphosphate kinase that binds mitochondrial membranes. Results: Nm23-H4 interaction with GTPase OPA1 provides a local GTP supply; its interaction with anionic phospholipids inhibits kinase activity but allows intermembrane cardiolipin transfer and sensitizes for apoptosis. Conclusion: Nm23-H4 is a bifunctional switch operated by cardiolipin. Significance: The cardiolipin transfer property has various implications, e.g. for lipid metabolism and apoptosis.

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Topography of tyrosine residues and their involvement in peroxidation of polyunsaturated cardiolipin in cytochrome c/cardiolipin peroxidase complexes

Cited by 66 publications

References 42 publications

Cardiolipin Interactions with Proteins

Cardiolipin Interactions with Proteins

NO2−-mediated nitrosylation of ferrous microperoxidase-11

Dual Function of Mitochondrial Nm23-H4 Protein in Phosphotransfer and Intermembrane Lipid Transfer

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