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AMP adenosine

In fatty-acid biosynthesis, a carboxylic acid is activated by reaction with ATP to give an acyl adenylate, which undergoes nucleophilic acyi substitution with the — SH group or coenzyme A. (ATP = adenosine triphosphate AMP = adenosine monophosphate.)... [Pg.801]

A/J A Jackson inbred mouse strain ALP Anti-leukoprotease ALS Amyotrophic lateral sclerosis cAMP Cyclic adenosine monophosphate also known as adenosine 3, 5 -phosphate AM Alveolar macrophage AML Acute myelogenous leukaemia AMP Adenosine monophosphate AMVN 2,2 -azobis (2,4-dimethylvaleronitrile)... [Pg.279]

Figure 12 Gradient separation of bases, nucleosides and nucleoside mono- and polyphosphates. Column 0.6 x 45 cm. Aminex A-14 (20 3 p) in the chloride form. Eluent 0.1 M 2-methyl-2-amino-l-propanol delivered in a gradient from pH 9.9-100 mM NaCl to pH 10.0-400 mM NaCl. Flow rate 100 ml/hr. Temperature 55°C. Detection UV at 254 nm. Abbreviations (Cyt) cytosine, (Cyd) cytidine, (Ado) adenosine, (Urd) uridine, (Thyd) thymidine, (Ura) uracil, (CMP) cytidine monophosphate, (Gua) guanine, (Guo) guanosine, (Xan) xanthine, (Hyp) hypoxanthine, (Ino) inosine, (Ade) adenosine, (UMP) uridine monophosphate, (CDP) cytidine diphosphate, (AMP) adenosine monophosphate, (GMP) guanosine monophosphate, (IMP) inosine monophosphate, (CTP) cytidine triphosphate, (ADP) adenosine diphosphate, (UDP) uridine monophosphate, (GDP) guanosine diphosphate, (UTP) uridine triphosphate, (ATP) adenosine triphosphate, (GTP), guanosine triphosphate. (Reproduced with permission of Elsevier Science from Floridi, A., Palmerini, C. A., and Fini, C., /. Chromatogr., 138, 203, 1977.)... Figure 12 Gradient separation of bases, nucleosides and nucleoside mono- and polyphosphates. Column 0.6 x 45 cm. Aminex A-14 (20 3 p) in the chloride form. Eluent 0.1 M 2-methyl-2-amino-l-propanol delivered in a gradient from pH 9.9-100 mM NaCl to pH 10.0-400 mM NaCl. Flow rate 100 ml/hr. Temperature 55°C. Detection UV at 254 nm. Abbreviations (Cyt) cytosine, (Cyd) cytidine, (Ado) adenosine, (Urd) uridine, (Thyd) thymidine, (Ura) uracil, (CMP) cytidine monophosphate, (Gua) guanine, (Guo) guanosine, (Xan) xanthine, (Hyp) hypoxanthine, (Ino) inosine, (Ade) adenosine, (UMP) uridine monophosphate, (CDP) cytidine diphosphate, (AMP) adenosine monophosphate, (GMP) guanosine monophosphate, (IMP) inosine monophosphate, (CTP) cytidine triphosphate, (ADP) adenosine diphosphate, (UDP) uridine monophosphate, (GDP) guanosine diphosphate, (UTP) uridine triphosphate, (ATP) adenosine triphosphate, (GTP), guanosine triphosphate. (Reproduced with permission of Elsevier Science from Floridi, A., Palmerini, C. A., and Fini, C., /. Chromatogr., 138, 203, 1977.)...
Adenine Adenosine Adenylic acid Adenosine monophosphate (AMP) Adenosine diphosphate (ADP) Adenosine triphosphate (ATP)... [Pg.6]

Fig. 14.1 Cellular pathway of methotrexate. ABCBl, ABCCl-4, ABC transporters ADA, adenosine deaminase ADP, adenosine diphosphate AICAR, aminoimidazole carboxamide ribonucleotide AMP, adenosine monophosphate ATIC, AICAR transformylase ATP, adenosine triphosphate SjlO-CH -THF, 5,10-methylene tetrahydrofolate 5-CHj-THF, 5-methyl tetrahydro-folate DHFR, dihydrofolate reductase dTMP, deoxythymidine monophosphate dUMP, deoxy-uridine monophosphate FAICAR, 10-formyl AICAR FH, dihydrofolate FPGS, folylpolyglutamyl synthase GGH, y-glutamyl hydrolase IMP, inosine monophosphate MTHFR, methylene tetrahydrofolate reductase MTR, methyl tetrahydrofolate reductase MTX-PG, methotrexate polyglutamate RFCl, reduced folate carrier 1 TYMS, thymidylate synthase. Italicized genes have been targets of pharmacogenetic analyses in studies published so far. (Reproduced from ref. 73 by permission of John Wiley and Sons Inc.)... Fig. 14.1 Cellular pathway of methotrexate. ABCBl, ABCCl-4, ABC transporters ADA, adenosine deaminase ADP, adenosine diphosphate AICAR, aminoimidazole carboxamide ribonucleotide AMP, adenosine monophosphate ATIC, AICAR transformylase ATP, adenosine triphosphate SjlO-CH -THF, 5,10-methylene tetrahydrofolate 5-CHj-THF, 5-methyl tetrahydro-folate DHFR, dihydrofolate reductase dTMP, deoxythymidine monophosphate dUMP, deoxy-uridine monophosphate FAICAR, 10-formyl AICAR FH, dihydrofolate FPGS, folylpolyglutamyl synthase GGH, y-glutamyl hydrolase IMP, inosine monophosphate MTHFR, methylene tetrahydrofolate reductase MTR, methyl tetrahydrofolate reductase MTX-PG, methotrexate polyglutamate RFCl, reduced folate carrier 1 TYMS, thymidylate synthase. Italicized genes have been targets of pharmacogenetic analyses in studies published so far. (Reproduced from ref. 73 by permission of John Wiley and Sons Inc.)...
Emission quenching is also observed with mononucleotides. In that case the quenching efficiency decreases from GMP (guanosine 5 monophosphate) to AMP (adenosine 5 monophosphate) i.e. it also follows the redox potentials of the bases, as G is more easily oxidisable than A, although the oxidation potential valura reported in the literature are rather different from one author to the other [101-104], Moreover the quenching rate constant by GMP in a Kries of different TAP and HAT complexes plotted versus the reduction potential of the excited state (Fig. 12) [95] is consistent with an electron transfer process. Indeed, as will be demonstrated in Sect. 4.3.1, these quenchings (by the mono-and polynucleotides) originate from such processes. [Pg.51]

Figure 2.4. Relationship between the postsynaptic receptor and the secondary messenger system. GTP=guanosine triphosphate GDP=guanosine diphosphate ATP=adenosine triphosphate AMP=adenosine monophosphate. Figure 2.4. Relationship between the postsynaptic receptor and the secondary messenger system. GTP=guanosine triphosphate GDP=guanosine diphosphate ATP=adenosine triphosphate AMP=adenosine monophosphate.
Periodic acid oxidation has proved to be a very useful tool in enzymology since a wide variety of biochemicals contain hydroxyl groups on adjacent carbon atoms. For example, periodate-oxidized ATP (also called adenosine 5 -triphosphate 2, 3 -dialdehyde) has often been used as an alternative substrate or an irreversible inhibitor for a wide variety of ATP-utilizing enzymes. This compound, and many others, are now commercially available, even though they are readily synthesized e.g., periodic acid oxidized ADP, AMP, adenosine, P, P -di(adenosine-5 )pentaphosphate, P, P -di(adenosine-5 )tetraphos-phate, GTP, GDP, GMP, guanosine, CTP, CDP, CMP, etc. In the case of the nucleosides, commercial sources also can supply the dialcohol form of the nucleoside i.e., the nucleoside has first been oxidized with periodic acid and then reduced to the dialcohol with borohydride. [Pg.438]

Receptors act by inactivation of adenylate cyclase cyclic AMP (adenosine-monophosphate) levels within the cell decrease. [Pg.167]

Cyclic AMP (adenosine 3, 5 -cyclic monophosphate) is anotter secondary messenger that acts as an intracellular mediator for many different hormones, communicating the signal through the cyclic AMP-dependent protein kinase. This, in turn, phosphorylates other proteins at ine and threonine residues. Certain cell-surfece receptors act by increasing the concentration of intracellular cyclic AMP. A long-duration sudden increase of intracellular cyclic AMP takes place with cholera toxins in intestinal epithelial cells. Other cell-surfece receptors play the opposite role of decreasing the concentration of cyclic AMP. [Pg.127]

Figure 1. Nucleotide degradation pathway (ATP=adenosine-5 -triphosphate, ADP=adenosine-5 -diphosphate, AMP=adenosine-5 -monophosphate, IMP=inosine-5 -monophosphate). Figure 1. Nucleotide degradation pathway (ATP=adenosine-5 -triphosphate, ADP=adenosine-5 -diphosphate, AMP=adenosine-5 -monophosphate, IMP=inosine-5 -monophosphate).
If the terminal pyrophosphate is removed from a molecule of ATP, the remainder is AMP, adenosine monophosphate, one of the four building blocks of the important biological macromolecules, the nucleic acids. There are two types of nucleic acids (26) ribonucleic acid (RNA), and deoxyribonucleic acid (DNA). RNA is a polymer of four different nucleotides, one of which is AMP, the ribose phosphate of adenine. The other three nucleotides are also ribose phosphates of heterocyclic bases, guanine, cytosine, and uracil. The structure of the four bases is shown in Figure 6. [Pg.52]

Concerning human studies, only three reports have been reported (for review see Burnstock et al., 2000). Bleehen and Keele (1977) reported observations on the algogenic actions of adenosine compounds on blister base preparations. Coutts et al. (1981) injected ATP, ADP, AMP, adenosine, adenine and inosine intradermally. The area of erythema induced by the injection was delineated at 30 s. and again after a further 4.5 min when the size of the response was maximal. ATP, ADP and AMP evoked weal and flare responses in the skin in a dose-dependent manner. The rank order of potency was ATP > ADP > AMP other metabolites were apparently inactive. Injections of ATP and high doses of ADP produced a sensation of persistent pain. [Pg.491]

Adenosine 5 -phosphate. See AMP Adenosine diphosphate. See ADP Adenosine monophosphate. See AMP Adenosine triphosphate. See ATP Adenosine-diphosphate-ribose. See ADP-ribose... [Pg.906]


See other pages where AMP adenosine is mentioned: [Pg.121]    [Pg.334]    [Pg.483]    [Pg.431]    [Pg.83]    [Pg.86]    [Pg.1127]    [Pg.504]    [Pg.243]    [Pg.242]    [Pg.282]    [Pg.963]    [Pg.139]    [Pg.474]    [Pg.229]    [Pg.463]    [Pg.314]    [Pg.560]    [Pg.406]    [Pg.16]    [Pg.431]    [Pg.805]    [Pg.9]    [Pg.170]    [Pg.170]    [Pg.234]    [Pg.273]    [Pg.639]    [Pg.630]    [Pg.907]   


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5 -AMP

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