ADENOSINE TRIPHOSPHATE

Before
1: S
amp, see
2: SU
cyclic, enzyme, human, during
3: SUU
thymidine
3: USU
potassium, dependent
4: SUUU
activated
4: USUU
endogenous, potassium
4: UUSU
intravenous
After
1: S
tri, form, may
2: SU
phosphates, cyclic, binding, uptake, phosphate, levels, levels
2: US
release
3: SUU
analogs, analogues, agonists, residues
3: USU
inhibits, infusion, production
4: USUU
antagonists, derivatives
4: UUSU
concentration
Surrounder Phrases
cytosine arabinoside, deaminase, residues, contentadenine dinucleotide, arabinoside, nucleotides, nucleotide, guanine, residues, residuecytidine deaminase, diphosphate, triphosphate, monophosphatenicotinamide adenine, nucleotideinosine monophosphateuridine diphosphate, monophosphate, triphosphate, kinaseguanosine monophosphate, triphosphate, diphosphate, triphosphatase, nucleotideribonucleoside diphosphate, triphosphateisopentenyl diphosphateadenosine triphosphatase, triphosphatases, deaminase, triphosphate, monophosphate, diphosphate, analogs, analogues, phosphates, receptors, nucleotides, receptor, agonists, kinase, tri, antagonists, inhibits, infusion, cyclic, uptake, phosphate, residues, derivativesdeoxynucleoside triphosphatedeoxyuridine monophosphatedeoxyadenosine triphosphatetranslocating atpasemyofibrillar atpasenucleoside diphosphate, analogs, triphosphate, analogues, monophosphate, analogue, analog, transportinositol triphosphate, phosphates, phosphate, metabolismguanine nucleotide, nucleotides, cytosine, residuesdibutyryl cyclicdeoxycytidine kinasecyclic amp, guanosine, adenosine, nucleotides, nucleotide, monophosphate, phosphate, stress, compoundsthiamin diphosphate, contentdinucleotide phosphatethymidine kinase, monophosphate, triphosphate, uptake, analogue, analogmyosin atpase, molecule, kinase, bindingamp deaminase, adenosine, receptor, levels, concentrations, metabolism, synthesis, formationthiamine diphosphate, synthesisacyclovir triphosphatediphosphate kinasereceptor antagonists, antagonist, agonists, agonist, binding, kinase, antagonism, blocking, molecule, inhibitsintravenous infusion, acyclovir, ganciclovir, administration, adenosine, fluid, sodium, potassiumintracoronary infusion, administrationmitochondrial atpase, membrane, enzyme, metabolismnucleotide analogs, triphosphate, analogues, binding, analogue, metabolism, residues, pools, hydrolysis, analog, synthesis, derivatives, residue, poolmonophosphate kinase, levelsthallium uptake, myocardial, compounds, stressextracellular fluid, potassium, adenosine, enzyme, sodium, intracellular, concentrationsplasma membrane, concentrations, concentration, potassium, levels, sodiumpotassium atpase, phosphate, depletion, adenosine, uptake, concentration, concentrations, levelserythrocyte membrane, enzyme, metabolism, receptor, plasmainterstitial fluid, tissueactivated atpase, receptor, adenosine, myosin, kinase, potassium, receptorssodium phosphate, diphosphate, depletion, phosphates, potassium, concentrationstimulated atpase, inositol, cyclicphosphate moiety, depletion, uptake, metabolism, residues, concentrations, compounds, kinase, hydrolysis, residue, concentration, transportagonist binding, antagonist, concentrations, induced, concentrationendogenous adenosine, agonist, agonists, compounds, synthesisintracellular cyclic, potassium, fluid, sodium, adenosine, pools, receptors, concentrations, transport, concentration, metabolism, uptake, enzyme, receptor, poolmembrane atpase, receptors, receptor, transportselective agonists, agonist, antagonists, antagonist, inhibition, uptake, depletionagonists inhibitenzyme inhibition, molecule, adenosine, hydrolysis, synthesis, convertscellular metabolism, uptake, receptors, membrane, receptorantagonists inhibitdependent atpase, kinasetriphosphate binding, levelskinase receptors, receptor, inhibitioncell membrane, receptoratpase inhibition, enzymeinhibits mitochondrial, cellular, synthesisterminal residues, residue, kinase, nucleotide, nucleotides, phosphatedeoxy formantagonist bindingtransport atpasestress thalliuminhibit mitochondrial, endogenousbrain tissueanalog cellularmyocardial metabolism, uptake, tissueconverts analogactive moiety, transportinduced inhibitionreceptors inhibitshuman erythrocytesynthesis inhibitionuptake inhibitionstimulates releaseincreased uptakevia diexogenous compounds