Adenosine monophosphate

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Adenosine monophosphate
Chemical name 5'-Adenylic acid
Chemical formula C₁₀H₁₄N₅O₇P
Molecular mass 347.22 g/mol
CAS number 61-19-8
SMILES O[C@HΣ[C@H]([C@@H]
(O[C@@HΣCOP(O)(O)=O)
N2C3=C(N=C2)C(N)=NC=N3)O

Adenosine monophosphate, also known as 5'-adenylic acid and abbreviated AMP, is a nucleotide that is found in RNA. It is an ester of phosphoric acid with the nucleoside adenosine. AMP consists of the phosphate group, the pentose sugar ribose, and the nucleobase adenine.

Adenosine monophosphate
Chemical name	5'-Adenylic acid
Chemical formula	C₁₀H₁₄N₅O₇P
Molecular mass	347.22 g/mol
CAS number	61-19-8
SMILES	O[C@HΣ[C@H]([C@@H] (O[C@@HΣCOP(O)(O)=O) N2C3=C(N=C2)C(N)=NC=N3)O

Contents

1 Production and degradation
2 cAMP
3 Commercial applications
4 See also
5 External links
6 External links

Production and degradation

AMP can be produced during ATP synthesis by the enzyme adenylate kinase by combining two ADP molecules:

2 ADP → ATP + AMP

Or AMP may be produced by the hydrolysis of one high energy phosphate bond of ADP:

ADP → AMP + P_i

AMP can also be formed by hydrolysis of ATP into AMP and pyrophosphate:

ATP → AMP + PP_i

When RNA is broken down by living systems, nucleoside monophosphates, including adenosine monophosphate, are formed.

AMP can be regenerated to ATP as follows:

AMP + ATP → 2 ADP (adenylate kinase in the opposite direction)

2 ADP + 2 P_i → 2 ATP (this step is most often performed in aerobes by the ATP synthase during oxidative phosphorylation)

AMP can be converted into IMP by the enzyme myoadenylate deaminase, freeing an ammonia group.

In a catabolic pathway, adenosine monophosphate can be converted to uric acid, which is excreted from the body.

cAMP

AMP can also exist as a cyclic structure known as cyclic AMP (or cAMP). Within certain cells the enzyme adenylate cyclase makes cAMP from ATP, and typically this reaction is regulated by hormones such as adrenaline or glucagon. cAMP plays an important role in intracellular signalling.

Commercial applications

Linguagen Corp, which is located in Cranbury, New Jersey, obtained Food and Drug Administration approval in September 2004 to employ AMP as a patented 'Bitter Blocker' additive to foodstuffs. To human tastes, the bitterness suppressing quality of AMP interprets as food seeming 'sweeter'. This makes lower calorie food products more palatable, making AMP potentially a lucrative solution for food manufacturers as they respond to pressure from consumers and regulators concerned about social trends towards obesity.

External links

[Computational Chemistry Wiki]

External links

For a full list of external links to MSDSs, spectroscopic data, commercial chemicals suppliers etc. for this compound, see [Chemical sources].

Nucleic acids [http://encycl.opentopia.com/ edit]
Nucleobases: Adenine \| Thymine \| Uracil \| Guanine \| Cytosine \| Purine \| Pyrimidine
Nucleosides: Adenosine \| Uridine \| Guanosine \| Cytidine \| Deoxyadenosine \| Thymidine \| Deoxyguanosine \| Deoxycytidine
Nucleotides: AMP \| UMP \| GMP \| CMP \| ADP \| UDP \| GDP \| CDP \| ATP \| UTP \| GTP \| CTP \| cAMP \| cGMP
Deoxynucleotides: dAMP \| dTMP \| dGMP \| dCMP \| dADP \| dTDP \| dGDP \| dCDP \| dATP \| dTTP \| dGTP \| dCTP
Nucleic acids: DNA \| mtDNA \| cDNA \| GNA \| RNA \| mRNA \| tRNA \| rRNA \| ncRNA \| sgRNA \| shRNA \| siRNA \| snRNA \| miRNA \| snoRNA \| LNA \| PNA \| TNA \| Oligonucleotide

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Adenosine monophosphate

Production and degradation

cAMP

Commercial applications

See also

External links

External links