Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Enzyme
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Query: EC:3.5.1.4 (
deaminase
)
5,113
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Purified rat muscle AMP deaminase (AMP aminohydrolase, EC 3.5.4.6) binds tightly to rat myosin. The binding is abolished in the presence of low concentrations of various ligands. Pyrophosphate and GTP at concentrations as low as 0.1 micrometer were effective in abolishing the interaction between two proteins. Other nucleoside triphosphates were less effective than GTP and the concentrations required for 50% inhibition were approximately 0.3 to 0.7 micrometer. ADP and AMP are effective in inhibiting the interaction between two proteins, but they are less effective than the nucleoside triphosphates; 50% inhibition occurred at 34 micrometer with ADP and at 1 mM with AMP.
Creatine phosphate
and inorganic phosphate showed 50% inhibition at 5 to 6 mM. All of the compounds, which affected AMP deaminase activity, were effective in abolishing the interaction of the enzyme with myosin; however, the interaction-abolishing effects of the compounds are not parallel with their inhibitory effects on the
deaminase
activity. Although there exist three parental isozymes of AMP deaminase in the rat, all three enzymes interacted with myosin.
...
PMID:Effects of various ligands on interaction of AMP deaminase with myosin. 20 24
Measurements of metabolite concentrations before and immediately after swimming of trout to exhaustion indicate that all three potential endogenous fuels of anaerobic metabolism [glycogen,
phosphocreatine
(PCr) and adenosine triphosphate (ATP)] are utilized during anaerobic white muscle work. Lactate, H+, creatine Pi, NH4+ and inosine monophosphate (IMP) are formed in the process. Glycolysis is considered to be functionally (if loosely) coupled to adenylate depletion by setting up conditions favouring AMP-
deaminase
-catalysed formation of IMP and NH3. During recovery under these experimental conditions, glycolysis appears to outcompete oxidative metabolism as an ADP acceptor; therefore, in this kind of white muscle, glycolysis is also linked to IMP reconversion to AMP and thus to adenylate replenishment. The net process generates H+, which is why ATP replenishment must be completed before PCr concentrations can be returned to pre-exercise values.
...
PMID:Role of glycolysis in adenylate depletion and repletion during work and recovery in teleost white muscle. 358 38
Tissues of chicks fed 5% N-methyl-3-guanidinopropionate (N-amidino-N-methyl-beta-alanine) for 12 days accumulated the following amounts of free plus phosphorylated derivatives as mumol/g, wet weight: brain, 5.5; heart, 7.3; leg muscle, 21.0; and breast muscle, 24.4. Since total creatine levels remained nearly the same in brain, N-methyl-3-guanidinopropionate-P provided brain with a supplemental reservoir of high energy phosphate. Tissues of rats fed 2% N-ethylguanidinoacetate (N-amidino-N-ethylglycine) accumulated large amounts of N-ethylguanidinoacetate-P, which has thermodynamic properties similar to
creatine-P
and is the kinetically most reactive synthetic phosphagen yet described. N-Ethylguanidinoacetate derivatives replaced creatine derivatives mole-for-mole, and the fraction of synthetic to total phosphagen after 19 days was 60% in heart, 54% in slow oxidative muscle, 42% in fast glycolytic muscles, and 22% in brain. N-Ethylguanidinoacetate served as a false end product co-repressor of liver arginine:glycine amidinotransferase levels in both chicks and chick embryos; N-methyl-3-guanidinopropionate and N-propylguanidinoacetate were relatively inactive. Creatinine
amidohydrolase
reversibly cyclized both N-ethylguanidinoacetate and N-propylguanidinoacetate with even lower Km values than for creatine derivatives, but it did not react significantly with N-methyl-3-guanidinopropionate, 3-guanidinopropionate, or 1-carboxy-methyl-2-imino-imidazolidine (cyclocreatine). Creatine amidinohydrolase also hydrolyzed N-acetimidoylsarcosine, but was relatively unreactive toward N-ethylguanidinoacetate, N-methyl-3-guanidinopropionate, 3-guanidinopropionate, and cyclocreatine. Amidinohydrolase can therefore be used to remove interfering creatine in assays of tissues for coexisting N-ethylguanidinoacetate or N-methyl-3-guanidinopropionate. Assays are now available to follow changes during metabolic stresses of any combination or all of the following phosphagens accumulated by the same tissue:
creatine-P
, N-ethylguanidinoacetate-P, cyclocreatine-P, N-methyl-3-guanidinopropionate-P, and homocyclocreatine-P.
...
PMID:Higher homolog and N-ethyl analog of creatine as synthetic phosphagen precursors in brain, heart, and muscle, repressors of liver amidinotransferase, and substrates for creatine catabolic enzymes. 405 45
The effects of an induced malignant hyperthermia (MH) crisis have been studied in the intact pig. Both physiological and biochemical changes in skeletal muscle were studied. MH was induced with 3% halothane plus a bolus injection of succinylcholine. In the prechallenge period a significant difference was observed in the concentration of certain muscle metabolites, comparing the MH-susceptible (MH+) with the non-susceptible (MH-) pigs. A lower level was measured for
phosphocreatine
(PCr), inosine monophosphate (IMP) and an increased level of lactate and creatine (Cr) in the susceptible pigs (MH+). The challenge caused a significant reduction of the level of PCr and adenosine in MH+ pigs, compared to the prechallenge period. After administration of dantrolene sodium, a significant decrease was measured in the level of lactate, compared to the prechallenge period as well as during the challenge. In contrast, in the control pigs no significant changes were observed in muscle metabolites, either after induction of MH or after the administration of dantrolene sodium. Enzyme activity determinations of muscle adenylate kinase and adenosine monophosphate (AMP)-
deaminase
did not show any difference in activity either before or during the MH crisis or after treatment with dantrolene sodium. The earliest physiological change during an induced MH crisis in our study was the rapid increase of the end-tidal CO2. Within 5 min after MH induction, end-tidal CO2 was doubled. It is concluded that the monitoring of the end-tidal CO2 is essential to diagnose MH at a very early stage.
...
PMID:In vivo induced malignant hyperthermia in pigs. I. Physiological and biochemical changes and the influence of dantrolene sodium. 671 Dec 53
We have blocked creatine kinase (CK) mediated
phosphocreatine
(PCr) <==> ATP transphosphorylation in mitochondria and cytosol of skeletal muscle by knocking out the genes for the mitochondrial (ScCKmit) and the cytosolic (M-CK) CK isoforms in mice. Animals which carry single or double mutations, if kept and tested under standard laboratory conditions, have surprisingly mild changes in muscle physiology. Strenuous ex vivo conditions were necessary to reveal that MM-CK absence in single and double mutants leads to a partial loss of tetanic force output. Single ScCKmit deficiency has no noticeable effects but in combination the mutations cause slowing of the relaxation rate. Importantly, our studies revealed that there is metabolic and cytoarchitectural adaptation to CK defects in energy metabolism. The effects involve mutation type-dependent alterations in the levels of AMP, IMP, glycogen and phosphomonoesters, changes in activity of metabolic enzymes like AMP-
deaminase
, alterations in mitochondrial volume and contractile protein (MHC isoform) profiles, and a hyperproliferation of the terminal cysternae of the SR (in tubular aggregates). This suggests that there is a compensatory resiliency of loss-of-function and redirection of flux distributions in the metabolic network for cellular energy in our mutants.
...
PMID:Cytoarchitectural and metabolic adaptations in muscles with mitochondrial and cytosolic creatine kinase deficiencies. 974 21
