Adenylates monophosphate adenosine

Adenine Adenosine Adenylic acid Adenosine monophosphate (AMP) Adenosine diphosphate (ADP) Adenosine triphosphate (ATP)... 

ADENOSINE PHOSPHATES. The adenosine phosphates include adenylic acid (adenosine monophosphate, AMP) in which adenosine is esteri-fied with phosphoric add at the 5/-position adenosine diphosphate (ADP) in which esterification at the same position is with pyrophosphoric acid,... 

Adenylic Acid. Adenosine 3 -monophosphate adenosine - 3 -phosphoric acid adenosine - 3 -monophos-phoric acid adenylic acid b yeast adenylic acid synadenylic acid h-adenylic acid. C HuNjOyP mol wt 347.23. C 34.59%, H 4.06%, N 20.17%, O 32.26%, P 8.92%. Early prepns from yeast nucleic acid Levene. Bass, Nucleic Acids, (Chemical Catalogue Co., New York, 1931). Early work probebty done on mixtures of 2 - and 3 -adenylic acids both compds isomerize readily to form an equilibrium mix -Hire under acid conditions Carter, Cohn, Fed. Proc. 8, 190 (1949) Baddily, in The Nucleic Acids vol. 1, E. Chargaff, J. N. Davidson, Eds. (Academic Press, New Yotk, 1955) pp 165-168 A. M. Michelson, The Chemistry of Nucleoside and Nucleotides (Academic Press, New York, 1963) pp 100-106. Synthesis Brnwn, Todd, J. Chem. Soc. 1952, 44. Structure nf dihydrate Brown el at, Nature 172, 1184... 

Adenylic Acid. Muscle adenylic acid ergaden -ylic acid t -adenylic acid adenosine S -monophosphate adenosine phosphate adenosine-5 -phosphoric add edeno-sine-5. monophosphoric acid A5MP AMP NSC-20264 Addiyl Cardiomone (Na salt) Lycedan My -B-Den My-oston Phosaden. C,0HhNjO7P mol wt 347.23, C 34.59%, H 4.06%, N 20.17%, O 32,25%, P 8,92%. Nucleotide widely distributed in nature. Prepn from tissues Embden, Zimmerman, Z. Physrot Chem. 167, 137 (1927) Embden, Schmidt, ibid. 181, 130 (1929) cf. Kalckar, J. B.ol Chem. 167, 445 (1947). Prepn by hydrolysis of ATP with barium hydroxide Kerr, 3. Biot Chem. 139, 13l (1941). Synthesis Baddiley, Todd. 3. Chem. Soc. 1947, 648. Commercial prepn by enzymatic phosphorylation of adenosine. Monograph on synthesis of nucleotides G. R. Pettit. Synthetic Nucleotides vol, 1 (Van Nostrand-Reinhold. New York, 1972) 252 pp. Crystal structure Kraut, lensen, Acta Cryst 16, 79 (1963). Reviews see Adenosine Nucleic Acids. 

Adenosine phosphate CAS 61-19-8 EINECS/ELINCS 200-500-0 Synonyms Adenosine monophosphate Adenosine-5 -monophosphate Adenosine-5 -monophosphoric acid 5 -Adenylic acid AMP Ciassification Heterocyclic org. compd. 

The different varieties of orthophosphoric monoesters and diesters which are present in all living species are exceedingly numerous. Biologically important monoesters include the mononucleotides such as, for example, adenylic acid (adenosine monophosphate, AMP), inosinic acid, vitamin Bg and many phosphorylated proteins, for example, milk caseins. Biologically important diesters include the phospholipids (e.g. lecithin and phosphatidyl inositol), plasmalogens, sphingomyelins, cyclic nucleotide monophosphates (e.g. cyclic AMP), some teichoic acids, vitamin Bj2 and of course the immensely important nucleic acids (polynucleotides) (Chapters 10 and 11). The great stability of diesters is an essential feature of the chemistry of polynucleotides. 

Adenosine 5 -phosphate. Adenosine 5 -monophosphate. Adenosine-5 -phosphoric acid. Muscle adenylic acid. AMP. 5 -Adenylic acid. Phosphaden. NSC 20264 [61-19-8]... 

The dinucleotide NAD" (and NADH, NAD(P)", and NAD(P)H) is composed of ADP and a second ribosyl unit to which a nicotinamide is appended at the anomeric carbon. The biosynthesis of adenosine monophosphate (adenosine 5 -phosphate, AMP) was outlined above, and AMP can be converted to ADP by the action of adenylate kinase (EC 2.7.4.3). The enzymes called ATP synthases (EC 3.6.3.14 and 3.6.3.15) are complicated membrane- and nonmembrane-associated species that convert the energy associated with proton electrochemical gradients into ATP from ADP and inorganic phosphate (Pi) (Chapter 14). 

The purine base adenine (6-aminopurine, previoulsy also known as vitamin B4,5-131) is generally widespread as a building unit of the ribofuranoside adenosine and its phosphates, such as adenosine 5 -monophosphate (AMP, adenylic acid), adenosine 5 -diphosphate (ADP) and adenosine 5 -triphosphate (ATP), polynucleotides, such as ribonucleic acid (RNA) and deoxyribonucleic acid (DNA), vitamins (riboflavin, adenosylvitaminBjj) and cofactors NAD(P)+ and FAD. Adenylic acid was once considered a member of the vitamin B complex (as vitamin Bg). The agent in shiitake (Lenttnula edodes) mushrooms that can reduce the level of cholesterol in the blood is a purine derivative, (2fi,3fi)-dihydroxy-4-(9-adenyl)butyric acid (5-132) called eritadenine (lentinacin, lentysine). 

Therapeutic Function Vasodilator and platelet aggregation inhibitor Chemical Name Papaverine adenosine 5-monophosphate Common Name Papaverine adenylate... 

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.)... 

P2-Agonists cause airway smooth muscle relaxation by stimulating adenyl cyclase to increase the formation of cyclic adenosine monophosphate (cAMP). Other non-bronchodilator effects have been observed, such as improvement in mucociliary transport, but their significance is uncertain.11 P2-Agonists are available in inhalation, oral, and parenteral dosage forms the inhalation route is preferred because of fewer adverse effects. 

The effect of receptor stimulation is thus to catalyze a reaction cycle. This leads to considerable amplification of the initial signal. For example, in the process of visual excitation, the photoisomerization of one rhodopsin molecule leads to the activation of approximately 500 to 1000 transdudn (Gt) molecules, each of which in turn catalyzes the hydrolysis of many hundreds of cyclic guanosine monophosphate (cGMP) molecules by phosphodiesterase. Amplification in the adenylate cyclase cascade is less but still substantial each ligand-bound P-adrenoceptor activates approximately 10 to 20 Gs molecules, each of which in turn catalyzes the production of hundreds of cyclic adenosine monophosphate (cAMP) molecules by adenylate cyclase. 

Gs Noradrenaline and fi2 Dopamine Di and D5 Histamine H2 Serotonin 5-HT4 Stimulates adenylate cyclase increasing the concentration of cAMP (cyclic-adenosine-3, 5 -monophosphate)... 

Adenyl cyclase The enzyme (also known as adenylate, or adenylyl cyclase) that catalyses the formation of the second messenger cyclic adenosine-.l A -monophosphate (cAMP) from ATP following the activation of a Gs protein-coupled receptor. 

Figure 3.2 (a) The basic structure of a nucleotide, (b) The actual chemical structure of one representative nucleotide (adenylate, i.e. adenosine 5 -monophosphate)... 

Abnormal G protein functioning dysregulates adenylate cyclase activity, phosphoinositide responses, sodiurrypotassiunVcalcium channel exchange, and activity of phospholipases. Abnormal cyclic adenosine monophosphate and phosphoinositide secondary messenger system activity. 

The short-acting / -agonists (Table 80-1) are the most effective broncho-dilators available. /J2-Adrenergic receptor stimulation activates adenyl cyclase, which produces an increase in intracellular cyclic adenosine monophosphate. This results in smooth muscle relaxation, mast cell membrane stabilization, and skeletal muscle stimulation. 

Selective sympathomimetics cause relaxation of bronchial smooth muscle and bronchodilation by stimulating the enzyme adenyl cyclase to increase the formation of cyclic adenosine monophosphate. They may also improve mucociliary clearance. 

Alprostadil, or prostaglandin E1 stimulates adenyl cyclase to increase production of cyclic adenosine monophosphate, a neurotransmitter that ultimately enhances blood flow to and blood filling of the corpora. 

NE and EPI stimulate a- and (TAR on the cell surface of target tissues. P2-AR are expressed on almost all types of immune cells, with the notable exception of T-helper (Th)2 clones [3], P-AR on immunocytes are coupled with Gs proteins and adenylate cyclase, with subsequent activation increasing intracellular adenosine 3 , 5 -cyclic monophosphate (cAMP) and protein kinase A (PKA). Under normal conditions, P-AR cell surface expression up- and down-regulates in response to reduced and increased catecholamine... 

Metabotropic receptors, in contrast, create their effects by activating an intracellular G protein. The metabotropic receptors are monomers with seven transmembrane domains. The activated G protein, in turn, may activate an ion channel from an intracellular site. Alternately, G proteins work by activation or inhibition of enzymes that produce intracellular messengers. For example, activation of adenylate cyclase increases production of cyclic adenosine monophosphate (cAMP). Other effector mechanisms include activation of phospholipases, diacylglycerol, creation of inositol phosphates, and production of arachidonic acid products. Ultimately, these cascades can result in protein phosphorylation. 

Nucleotides are named by adding a term denoting the number of phasphate groups (and their position) to the name of the nucleoside e.g. adenosine 5-monophosphate, AMP (or adenylate). In general, nucleotides are assumed to be ribonucleotides unless the prefix deoxy (or d- as abbreviation) is used. (See Figures 20.5 and 20.6)... 

For example, the stimulation of )6-adrenoceptors by noradrenaline results in the activation of adenylate cyclase on the irmer side of the nerve membrane. This enz)nne catalyses the breakdown of ATP to the very labile, high-energy compound cyclic 3,5-adenosine monophosphate (cyclic AMP). Cyclic AMP then activates a protein kinase which, by phosphorylating specific membrane proteins, opens an ion charmel to cause an efflux of potassium and an influx of sodium ions. Such receptors are termed metabotropic receptors. 

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