review article | Q7318358 |
scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1008604646 |
P356 | DOI | 10.1023/A:1006851330913 |
P698 | PubMed publication ID | 9746317 |
P50 | author | Theo Wallimann | Q119703 |
Uwe Schlattner | Q55436874 | ||
P2093 | author name string | M Eder | |
M Forstner | |||
K Fritz-Wolf | |||
O Stachowiak | |||
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Balancing ATP in the cell | Q71169105 | ||
Differences in nucleotide compartmentation and energy state in isolated and in situ rat heart: assessment by 31P-NMR spectroscopy | Q71420452 | ||
Ca2+ uptake by cardiac sarcoplasmic reticulum ATPase in situ strongly depends on bound creatine kinase | Q71440845 | ||
A Membrane-bound Creatine Phosphokinase in Fragmented Sarcoplasmic Reticulum | Q71501542 | ||
Metabolite status of the heart in acute insufficiency due to 1-fluoro-2,4-dinitrobenzene | Q72021453 | ||
Creatine kinase equilibration follows solution thermodynamics in skeletal muscle. 31P NMR studies using creatine analogs | Q72259770 | ||
Some evidence in favour of the partnership between rabbit muscle aldolase and glyceraldehyde 3-phosphate dehydrogenase in the consecutive reactions | Q72322706 | ||
The activity of S-thiomethyl modified creatine kinase is due to the regeneration of free thiol at the active site | Q72327039 | ||
Cyclocreatine in cancer chemotherapy | Q72532943 | ||
Kinetics of assembly and dissociation of the mitochondrial creatine kinase octamer. A fluorescence study | Q72674811 | ||
Phosphocreatine protects transgenic mouse liver expressing creatine kinase from hypoxia and ischemia | Q72701873 | ||
The possible role of the mitochondrial bound creatine kinase in regulation of mitochondrial respiration | Q72779346 | ||
Creatine kinase: the reactive cysteine is required for synergism but is nonessential for catalysis | Q72838514 | ||
Altered Ca2+ responses in muscles with combined mitochondrial and cytosolic creatine kinase deficiencies | Q73205350 | ||
Mitochondrial creatine kinase interaction with phospholipid vesicles | Q73606637 | ||
Intracellular compartmentation, structure and function of creatine kinase isoenzymes in tissues with high and fluctuating energy demands: the 'phosphocreatine circuit' for cellular energy homeostasis | Q24527330 | ||
Improved methods for building protein models in electron density maps and the location of errors in these models | Q26776980 | ||
Structure of mitochondrial creatine kinase | Q27733157 | ||
Dictionary of protein secondary structure: pattern recognition of hydrogen-bonded and geometrical features | Q27860675 | ||
In vitro complex formation between the octamer of mitochondrial creatine kinase and porin | Q28287016 | ||
Cardiolipin is the membrane receptor for mitochondrial creatine phosphokinase | Q28568807 | ||
Location and regulation of octameric mitochondrial creatine kinase in the contact sites | Q28584153 | ||
RASMOL: biomolecular graphics for all | Q29547757 | ||
Three-dimensional structure of the tryptophan synthase alpha 2 beta 2 multienzyme complex from Salmonella typhimurium. | Q30196077 | ||
Purification and crystallization of creatine kinase from rabbit skeletal muscle | Q30406938 | ||
Activity of creatine kinase in a contracting mammalian muscle of uniform fiber type | Q34018859 | ||
Is myosin a "back door" enzyme? | Q34128821 | ||
The creatine-creatine phosphate energy shuttle | Q34194064 | ||
Creatine kinase in non-muscle tissues and cells | Q34314994 | ||
Further observations on phosphagen | Q34568123 | ||
A protein that binds specifically to the M-line of skeletal muscle is identified as the muscle form of creatine kinase | Q35097993 | ||
Transmembrane arrangement of mitochondrial porin or voltage-dependent anion channel (VDAC) | Q35332700 | ||
Mitochondrial creatine kinase: a key enzyme of aerobic energy metabolism | Q35360111 | ||
Creatine kinase (CK) in skeletal muscle energy metabolism: a study of mouse mutants with graded reduction in muscle CK expression | Q35762321 | ||
Localization of creatine kinase isoenzymes in myofibrils. I. Chicken skeletal muscle | Q36198755 | ||
Reconstitution of active octameric mitochondrial creatine kinase from two genetically engineered fragments | Q36279661 | ||
Native mitochondrial creatine kinase forms octameric structures. II. Characterization of dimers and octamers by ultracentrifugation, direct mass measurements by scanning transmission electron microscopy, and image analysis of single mitochondrial cr | Q36437374 | ||
Structure of the mitochondrial creatine kinase octamer: high-resolution shadowing and image averaging of single molecules and formation of linear filaments under specific staining conditions | Q36529072 | ||
Crystallization and preliminary X-ray diffraction data of two crystal forms of bovine heart creatine kinase | Q36618274 | ||
The structure of mitochondrial creatine kinase and its membrane binding properties | Q38572429 | ||
The radiation inactivation method provides evidence that membrane-bound mitochondrial creatine kinase is an oligomer | Q68148295 | ||
Identification and primary structure of the cardiolipin-binding domain of mitochondrial creatine kinase | Q68256873 | ||
Cause and consequences of dynamic compartmentation of adenine nucleotides in the mitochondrial intermembrane space in respect to exchange of energy rich phosphates between cytosol and mitochondria | Q68556694 | ||
Regulation of creatine phosphokinase B activity by protein kinase C | Q68629221 | ||
Crystallization and preliminary X-ray analysis of two different forms of mitochondrial creatine kinase from chicken cardiac muscle | Q68642286 | ||
Interaction of creatine kinase and hexokinase with the mitochondrial membranes, and self-association of creatine kinase: crosslinking studies | Q68683115 | ||
Why do cells need phosphocreatine and a phosphocreatine shuttle | Q68967441 | ||
Association of chicken mitochondrial creatine kinase with the inner mitochondrial membrane | Q69742741 | ||
Interaction of phospholipids with the detergent-solubilized ADP/ATP carrier protein as studied by spin-label electron spin resonance | Q69847869 | ||
ADP/ATP carrier protein from beef heart mitochondria has high amounts of tightly bound cardiolipin, as revealed by 31P nuclear magnetic resonance | Q70104080 | ||
Creatine kinase of rat heart mitochondria. The demonstration of functional coupling to oxidative phosphorylation in an inner membrane-matrix preparation | Q70111679 | ||
Phosphocreatine protects ATP from a fructose load in transgenic mouse liver expressing creatine kinase | Q70210252 | ||
Effect of okadaic acid on protein phosphorylation patterns of chicken myogenic cells with special reference to creatine kinase | Q70466328 | ||
Limited proteolysis of creatine kinase. Implications for three-dimensional structure and for conformational substrates | Q70480680 | ||
Functional coupling between sarcoplasmic-reticulum-bound creatine kinase and Ca(2+)-ATPase | Q70744219 | ||
Crystallization and properties of creatine kinase from equine skeletal muscle | Q70911188 | ||
Nuclear magnetic resonance studies of the role of histidine residues at the active site of rabbit muscle creatine kinase | Q70997293 | ||
Energy metabolism and regeneration in transgenic mouse liver expressing creatine kinase after major hepatectomy | Q71035630 | ||
Energy transport from mitochondria to myofibril by a creatine phosphate shuttle in cardiac cells | Q71091109 | ||
Suppression of creatine kinase-catalyzed phosphotransfer results in increased phosphoryl transfer by adenylate kinase in intact skeletal muscle | Q71143003 | ||
Subcellular compartmentation of creatine kinase isoenzymes, regulation of CK and octameric structure of mitochondrial CK: important aspects of the phosphoryl-creatine circuit. | Q38701740 | ||
Crystallization of mitochondrial creatine kinase. Growing of large protein crystals and electron microscopic investigation of microcrystals consisting of octamers | Q39254091 | ||
The role of creatine phosphokinase in supplying energy for the calcium pump system of heart sarcoplasmic reticulum | Q39311687 | ||
Role of creatine phosphokinase in cellular function and metabolism | Q39776506 | ||
Localization and function of M-line-bound creatine kinase. M-band model and creatine phosphate shuttle. | Q39819903 | ||
A simple analysis of the "phosphocreatine shuttle" | Q40176885 | ||
Transport of energy in muscle: the phosphorylcreatine shuttle | Q40217946 | ||
Metabolic compartmentation and substrate channelling in muscle cells. Role of coupled creatine kinases in in vivo regulation of cellular respiration--a synthesis | Q40561396 | ||
Sequence homology and structure predictions of the creatine kinase isoenzymes | Q40561413 | ||
Non-bilayer lipids are required for efficient protein transport across the plasma membrane of Escherichia coli | Q40789904 | ||
31P-NMR-measured creatine kinase reaction flux in muscle: a caveat! | Q41102800 | ||
Expression, purification from inclusion bodies, and crystal characterization of a transition state analog complex of arginine kinase: a model for studying phosphagen kinases | Q41855818 | ||
Identification by protein microsequencing of a proteinase-V8-cleavage site in a folding intermediate of chick muscle creatine kinase | Q41911459 | ||
Expression of active octameric chicken cardiac mitochondrial creatine kinase in Escherichia coli. | Q41957084 | ||
The transmembrane arrangement of the ADP/ATP carrier as elucidated by the lysine reagent pyridoxal 5-phosphate | Q42206202 | ||
Re-evaluation of the structure and physiological function of guanidino kinases in fruitfly (Drosophila), sea urchin (Psammechinus miliaris) and man. | Q42821672 | ||
The tryptophan residues of mitochondrial creatine kinase: roles of Trp-223, Trp-206, and Trp-264 in active-site and quaternary structure formation | Q42844264 | ||
The active site histidines of creatine kinase. A critical role of His 61 situated on a flexible loop | Q42845773 | ||
Inhibition of adenosine 5'-triphosphate-creatine phosphotransferase by substrate-anion complexes. Evidence for the transition-state organization of the catalytic site | Q42922275 | ||
Compartmentalized energy transfer in cardiomyocytes: use of mathematical modeling for analysis of in vivo regulation of respiration | Q42928763 | ||
Activation of sea-urchin sperm motility is accompanied by an increase in the creatine kinase exchange flux | Q42987176 | ||
The significance of creatine phosphate and adenosine triphosphate in terms of energy production, transport and utilization in the healthy and insufficient heart muscle | Q44090783 | ||
Rabbit muscle creatine kinase: consequences of the mutagenesis of conserved histidine residues | Q44544775 | ||
Specific inhibition of ATP-ADP translocase in cardiac mitoplasts by antibodies against mitochondrial creatine kinase | Q44560374 | ||
The active site of creatine kinase. Affinity labeling of cysteine 282 with N-(2,3-epoxypropyl)-N-amidinoglycine | Q46014748 | ||
A preliminary crystallographic investigation of rabbit muscle creatine kinase | Q47930195 | ||
Evaluation of creatine analogues as a new class of anticancer agents using freshly explanted human tumor cells | Q48138718 | ||
Creatine kinase of rat heart mitochondria. Coupling of creatine phosphorylation to electron transport. | Q48643968 | ||
Complexes between kinases, mitochondrial porin and adenylate translocator in rat brain resemble the permeability transition pore | Q48864569 | ||
Studies on adenosine triphosphate transphosphorylases. VII. Isolation of the crystalline adenosine triphosphate--creatine transphosphorylase from calf brain | Q49120019 | ||
A model of mitochondrial creatine kinase binding to membranes: adsorption constants, essential amino acids and the effect of ionic strength. | Q50122889 | ||
Kinetic characterization of channel impaired mutants of tryptophan synthase | Q50141321 | ||
High activity of creatine kinase in mitochondria from muscle and brain and evidence for a separate mitochondrial isoenzyme of creatine kinase. | Q51271735 | ||
THE ONTOGENY OF CREATINE KINASE ISOZYMES. | Q51272246 | ||
Dynamic compartmentation of adenine nucleotides in the mitochondrial intermembrane space of rat-heart mitochondria. | Q52603656 | ||
Tryptophan residues of creatine kinase: a fluorescence study. | Q52656234 | ||
Use of pH studies to elucidate the catalytic mechanism of rabbit muscle creatine kinase. | Q52739736 | ||
Open "back door" in a molecular dynamics simulation of acetylcholinesterase. | Q54032280 | ||
Muscle-type MM creatine kinase is specifically bound to sarcoplasmic reticulum and can support Ca2+ uptake and regulate local ATP/ADP ratios. | Q54327845 | ||
The N-terminal heptapeptide of mitochondrial creatine kinase is important for octamerization. | Q54640863 | ||
Adenosinetriphosphate-creatine transphosphorylase. I. Isolation of the crystalline enzyme from rabbit muscle. | Q55036947 | ||
Interaction of mitochondrial creatine kinase with model membranes A monolayer study | Q57768823 | ||
Membrane-Binding and Lipid Vesicle Cross-Linking Kinetics of the Mitochondrial Creatine Kinase Octamer† | Q58829554 | ||
Crystallization of Mitochondrial Creatine Kinase on Negatively Charged Lipid Layers | Q58829567 | ||
Creatine kinase shapes up | Q60080315 | ||
A spin-label electron spin resonance study of the binding of mitochondrial creatine kinase to cardiolipin | Q61889642 | ||
Creatine kinase. Nuclear magnetic resonance and fluorescence evidence for interaction of adenosine 5'-diphosphate with aromatic residue(s) | Q66955373 | ||
Creatine kinase. A new crystal form providing evidence of subunit structural homogeneity | Q67379721 | ||
Native mitochondrial creatine kinase forms octameric structures. I. Isolation of two interconvertible mitochondrial creatine kinase forms, dimeric and octameric mitochondrial creatine kinase: characterization, localization, and structure-function re | Q67955746 | ||
Metabolite channelling in aerobic energy metabolism | Q67977323 | ||
P433 | issue | 1-2 | |
P921 | main subject | physiology | Q521 |
P304 | page(s) | 125-140 | |
P577 | publication date | 1998-07-01 | |
P1433 | published in | Molecular and Cellular Biochemistry | Q1573176 |
P1476 | title | Functional aspects of the X-ray structure of mitochondrial creatine kinase: a molecular physiology approach | |
P478 | volume | 184 |
Q28214232 | A quantitative approach to membrane binding of human ubiquitous mitochondrial creatine kinase using surface plasmon resonance |
Q35157981 | A rodent model of schizophrenia reveals increase in creatine kinase activity with associated behavior changes |
Q30494036 | ASB9 interacts with ubiquitous mitochondrial creatine kinase and inhibits mitochondrial function |
Q46375357 | Acute toxicity of doxorubicin on isolated perfused heart: response of kinases regulating energy supply |
Q33848155 | Application of the principles of systems biology and Wiener's cybernetics for analysis of regulation of energy fluxes in muscle cells in vivo |
Q28252775 | C-terminal lysines determine phospholipid interaction of sarcomeric mitochondrial creatine kinase |
Q36367258 | Cardiac system bioenergetics: metabolic basis of the Frank-Starling law. |
Q38869621 | Cellular compartmentation of energy metabolism: creatine kinase microcompartments and recruitment of B-type creatine kinase to specific subcellular sites. |
Q42855133 | Computational simulations to predict creatine kinase-associated factors: protein-protein interaction studies of brain and muscle types of creatine kinases |
Q77516228 | Creatine kinase: an enzyme with a central role in cellular energy metabolism |
Q43818941 | Creatine supplementation reduces skeletal muscle degeneration and enhances mitochondrial function in mdx mice |
Q27620646 | Crystal structure of brain-type creatine kinase at 1.41 Å resolution |
Q27621914 | Crystal structure of human ubiquitous mitochondrial creatine kinase |
Q28211108 | Differential effects of peroxynitrite on human mitochondrial creatine kinase isoenzymes. Inactivation, octamer destabilization, and identification of involved residues |
Q57768617 | Direct Evidence for the Control of Mitochondrial Respiration by Mitochondrial Creatine Kinase in Oxidative Muscle Cellsin Situ |
Q58829441 | Divergent Enzyme Kinetics and Structural Properties of the Two Human Mitochondrial Creatine Kinase Isoenzymes |
Q45088980 | Effects of creatine supplementation in cystic fibrosis: results of a pilot study. |
Q24642138 | Exploring the role of the active site cysteine in human muscle creatine kinase |
Q42995168 | Free radical-induced inactivation of creatine kinase: influence on the octameric and dimeric states of the mitochondrial enzyme (Mib-CK). |
Q44010489 | Functional expression of phosphagen kinase systems confers resistance to transient stresses in Saccharomyces cerevisiae by buffering the ATP pool. |
Q46709147 | Identification of new tyrosine phosphorylated proteins in rat brain mitochondria |
Q44350621 | Inhibition of the mitochondrial permeability transition by creatine kinase substrates. Requirement for microcompartmentation. |
Q37276512 | Intracellular energetic units in healthy and diseased hearts |
Q35837796 | Inverse metabolic engineering with phosphagen kinase systems improves the cellular energy state |
Q30870017 | Isoenzyme-directed selection and characterization of anti-creatine kinase single chain Fv antibodies from a human phage display library. |
Q30665842 | Lack of dystrophin is associated with altered integration of the mitochondria and ATPases in slow-twitch muscle cells of MDX mice |
Q37535535 | Mitochondria and energetic depression in cell pathophysiology |
Q30304277 | Mitochondrial abnormalities in non-alcoholic steatohepatitis |
Q28198790 | Mitochondrial creatine kinase and mitochondrial outer membrane porin show a direct interaction that is modulated by calcium |
Q43914853 | Mitochondrial creatine kinase binding to liposomes and vesicle aggregation: effect of cleavage by proteinase K. |
Q37727186 | Mitochondrial proteomics as a selective tool for unraveling Parkinson's disease pathogenesis |
Q34186076 | Molecular dynamics analysis of structural factors influencing back door pi release in myosin |
Q36552392 | New insights into doxorubicin-induced cardiotoxicity: the critical role of cellular energetics. |
Q35220127 | Novel lipid transfer property of two mitochondrial proteins that bridge the inner and outer membranes |
Q44081140 | Novel mitochondrial creatine transport activity. Implications for intracellular creatine compartments and bioenergetics. |
Q28140644 | Octamers of mitochondrial creatine kinase isoenzymes differ in stability and membrane binding |
Q55067977 | Oligomeric state and membrane binding behaviour of creatine kinase isoenzymes: implications for cellular function and mitochondrial structure. |
Q43545595 | Organization of the gene for an invertebrate mitochondrial creatine kinase: comparisons with genes of higher forms and correlation of exon boundaries with functional domains |
Q46594031 | Origin and properties of cytoplasmic and mitochondrial isoforms of taurocyamine kinase |
Q37999718 | Protein oxidation in Huntington disease. |
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Q37269603 | Proteomic analysis of rat brain mitochondria following exposure to dopamine quinone: implications for Parkinson disease. |
Q42280312 | Proteomic identification of brain proteins in the canine model of human aging following a long-term treatment with antioxidants and a program of behavioral enrichment: relevance to Alzheimer's disease |
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Q36764985 | Skin phosphocreatine |
Q35672358 | Structural and functional adaptations of striated muscles to CK deficiency. |
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Q27666503 | The Structure of Lombricine Kinase: IMPLICATIONS FOR PHOSPHAGEN KINASE CONFORMATIONAL CHANGES |
Q54239454 | The extended, dynamic mitochondrial reticulum in skeletal muscle and the creatine kinase (CK)/phosphocreatine (PCr) shuttle are working hand in hand for optimal energy provision. |
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