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Showing NP-Card for Ammonia (NP0044562)

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Record Information
Version1.0
Created at2022-02-14 20:58:53 UTC
Updated at2022-03-10 22:18:15 UTC
NP-MRD IDNP0044562
Secondary Accession NumbersNone
Natural Product Identification
Common NameAmmonia
DescriptionAmmonia, also known as NH3 or amoniaco, belongs to the class of inorganic compounds known as homogeneous other non-metal compounds. These are inorganic non-metallic compounds in which the largest atom belongs to the class of 'other non-metals'. Ammonia is a colourless alkaline gas and is one of the most abundant nitrogen-containing compounds in the atmosphere. It is an irritant with a characteristic pungent odor that is widely used in industry. Inasmuch as ammonia is highly soluble in water and, upon inhalation, is deposited in the upper airways, occupational exposures to ammonia have commonly been associated with sinusitis, upper airway irritation, and eye irritation. Acute exposures to high levels of ammonia have also been associated with diseases of the lower airways and interstitial lung. Small amounts of ammonia are naturally formed in nearly all tissues and organs of the vertebrate organism. Ammonia is both a neurotoxin and a metabotoxin. In fact, it is the most common endogenous neurotoxin. A neurotoxin is a compound that causes damage to neural tissue and neural cells. A metabotoxin is an endogenously produced metabolite that causes adverse health effects at chronically high levels. Ammonia is recognized to be central in the pathogenesis of a brain condition known as hepatic encephalopathy, which arises from various liver diseases and leads to a build-up ammonia in the blood (hyperammonemia). More than 40% of people with cirrhosis develop hepatic encephalopathy. Part of the neurotoxicity of ammonia arises from the fact that it easily crosses the blood-brain barrier and is absorbed and metabolized by the astrocytes, a population of cells in the brain that constitutes 30% of the cerebral cortex. Astrocytes use ammonia when synthesizing glutamine from glutamate. The increased levels of glutamine lead to an increase in osmotic pressure in the astrocytes, which become swollen. There is increased activity of the inhibitory gamma-aminobutyric acid (GABA) system, and the energy supply to other brain cells is decreased. This can be thought of as an example of brain edema. The source of the ammonia leading to hepatic encaphlopahy is not entirely clear. The gut produces ammonia, which is metabolized in the liver, and almost all organ systems are involved in ammonia metabolism. Colonic bacteria produce ammonia by splitting urea and other amino acids, however this does not fully explain hyperammonemia and hepatic encephalopathy. The alternative explanation is that hyperammonemia is the result of intestinal breakdown of amino acids, especially glutamine. The intestines have significant glutaminase activity, predominantly located in the enterocytes. On the other hand, intestinal tissues only have a little glutamine synthetase activity, making it a major glutamine-consuming organ. In addition to the intestine, the kidney is an important source of blood ammonia in patients with liver disease. Ammonia is also taken up by the muscle and brain in hepatic coma, and there is confirmation that ammonia is metabolized in muscle. Excessive formation of ammonia in the brains of Alzheimer's disease patients has also been demonstrated, and it has been shown that some Alzheimer's disease patients exhibit elevated blood ammonia concentrations. Ammonia is the most important natural modulator of lysosomal protein processing. Indeed, there is strong evidence for the involvement of aberrant lysosomal processing of beta-amyloid precursor protein (beta-APP) in the formation of amyloid deposits. Inflammatory processes and activation of microglia are widely believed to be implicated in the pathology of Alzheimer's disease. Ammonia is able to affect the characteristic functions of microglia, such as endocytosis, and cytokine production. Based on these facts, an ammonia-based hypothesis for Alzheimer's disease has been suggested (PMID: 17006913 , 16167195 , 15377862 , 15369278 ). Chronically high levels of ammonia in the blood are associated with nearly twenty different inborn errors of metabolism including: 3-Hydroxy-3-methylglutaryl-CoA lyase deficiency, 3-methyl-crotonylglycinuria, argininemia, argininosuccinic aciduria, beta-ketothiolase deficiency, biotinidase deficiency, carbamoyl phosphate synthetase deficiency, carnitine-acylcarnitine translocase deficiency, citrullinemia type I, hyperinsulinism-hyperammonemia syndrome, hyperornithinemia-hyperammonemia-homocitrullinuria syndrome, isovaleric aciduria, lysinuric protein intolerance, malonic aciduria, methylmalonic aciduria, methylmalonic aciduria due to cobalamin-related disorders, propionic acidemia, pyruvate carboxylase deficiency, and short chain acyl CoA dehydrogenase deficiency (SCAD deficiency). Many of these inborn errors of metabolism are associated with urea cycle disorders or impairment to amino acid metabolism. High levels of ammonia in the blood (hyperammonemia) lead to the activation of NMDA receptors in the brain. This results in the depletion of brain ATP, which in turn leads to release of glutamate. Ammonia also leads to the impairment of mitochondrial function and calcium homeostasis, thereby decreasing ATP synthesis. Excess ammonia also increases the formation of nitric oxide (NO), which in turn reduces the activity of glutamine synthetase, and thereby decreases the elimination of ammonia in the brain (PMID: 12020609 ). As a neurotoxin, ammonia predominantly affects astrocytes. Disturbed mitochondrial function and oxidative stress, factors implicated in the induction of the mitochondrial permeability transition, appear to be involved in the mechanism of ammonia neurotoxicity. Ammonia can also affect the glutamatergic and GABAergic neuronal systems, the two prevailing neuronal systems of the cortical structures. All of these effects can lead to irreversible brain damage, coma, and/or death. Infants with urea cycle disorders and hyperammonia initially exhibit vomiting and increasing lethargy. If untreated, seizures, hypotonia (poor muscle tone, floppiness), respiratory distress (respiratory alkalosis), and coma can occur. Adults with urea cycle disorders and hyperammonia will exhibit episodes of disorientation, confusion, slurred speech, unusual and extreme combativeness or agitation, stroke-like symptoms, lethargy, and delirium. Ammonia also has toxic effects when an individual is exposed to ammonia solutions. Acute exposure to high levels of ammonia in air may be irritating to skin, eyes, throat, and lungs and cause coughing and burns. Lung damage and death may occur after exposure to very high concentrations of ammonia. Swallowing concentrated solutions of ammonia can cause burns in the mouth, throat, and stomach. Splashing ammonia into eyes can cause burns and even blindness.
Structure
Thumb
MOLSDFPDBSMILESInChI

MOL for NP0044562 (Ammonia)

222
  Mrv1652309032023502D          

  1  0  0  0  0  0            999 V2000
    3.3757    0.2063    0.0000 N   0  0  0  0  0  0  0  0  0  0  0  0
M  END
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3D MOL for NP0044562 (Ammonia)

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3D SDF for NP0044562 (Ammonia)
222
  Mrv1652309032023502D          

  1  0  0  0  0  0            999 V2000
    3.3757    0.2063    0.0000 N   0  0  0  0  0  0  0  0  0  0  0  0
M  END
> <DATABASE_ID>
NP0044562

> <DATABASE_NAME>
NP-MRD

> <SMILES>
N

> <INCHI_IDENTIFIER>
InChI=1S/H3N/h1H3

> <INCHI_KEY>
QGZKDVFQNNGYKY-UHFFFAOYSA-N

> <FORMULA>
H3N

> <MOLECULAR_WEIGHT>
17.0305

> <EXACT_MASS>
17.026549101

> <JCHEM_ACCEPTOR_COUNT>
1

> <JCHEM_ATOM_COUNT>
4

> <JCHEM_AVERAGE_POLARIZABILITY>
1.9904529105652708

> <JCHEM_BIOAVAILABILITY>
1

> <JCHEM_DONOR_COUNT>
1

> <JCHEM_FORMAL_CHARGE>
0

> <JCHEM_GHOSE_FILTER>
0

> <JCHEM_IUPAC>
ammonia

> <JCHEM_LOGP>
-0.9779999999999999

> <JCHEM_MDDR_LIKE_RULE>
0

> <JCHEM_NUMBER_OF_RINGS>
0

> <JCHEM_PHYSIOLOGICAL_CHARGE>
1

> <JCHEM_PKA_STRONGEST_BASIC>
8.861981369487705

> <JCHEM_POLAR_SURFACE_AREA>
13.59

> <JCHEM_REFRACTIVITY>
15.5149

> <JCHEM_ROTATABLE_BOND_COUNT>
0

> <JCHEM_RULE_OF_FIVE>
1

> <JCHEM_TRADITIONAL_IUPAC>
ammonia

> <JCHEM_VEBER_RULE>
1

$$$$

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3D-SDF for NP0044562 (Ammonia)
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PDB for NP0044562 (Ammonia)
HEADER    PROTEIN                                 03-SEP-20   NONE
TITLE     NULL                                                        
COMPND    MOLECULE: 222                                               
SOURCE    NULL                                                        
KEYWDS    NULL                                                        
EXPDTA    NULL                                                        
AUTHOR    Marvin                                                      
REVDAT   1   03-SEP-20         0                                  
HETATM    1  N   UNK     0       6.301   0.385   0.000  0.00  0.00           N+0
MASTER        0    0    0    0    0    0    0    0    1    0    0    0
END

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3D PDB for NP0044562 (Ammonia)
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SMILES for NP0044562 (Ammonia)
N
Download
INCHI for NP0044562 (Ammonia)
InChI=1S/H3N/h1H3
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Synonyms
ValueSource
[NH3]ChEBI
AmmoniacChEBI
AmmoniakChEBI
AmoniacoChEBI
NH3ChEBI
R-717ChEBI
Spirit OF hartshornChEBI
Ammonia anhydrousHMDB
Ammonia inhalantHMDB
Ammonia solution strongHMDB
Ammonia waterHMDB
Liquid ammoniaHMDB
Am-folHMDB
Ammonia (CONC 20% or greater)HMDB
Ammonia gasHMDB
Ammonia solutionHMDB
Ammonia solution strong (NF)HMDB
Ammonia water (JP15)HMDB
Ammoniacum gummiHMDB
Ammoniak kconzentrierterHMDB
AmmoniakgasHMDB
Ammonium ionHMDB
Anhydrous ammoniaHMDB
Aromatic ammonia vaporoleHMDB
AzaneHMDB
NH(3)HMDB
Nitro-silHMDB
Primaeres aminHMDB
Sekundaeres aminHMDB
Tertiaeres aminHMDB
Chemical FormulaH3N
Average Mass17.0305 Da
Monoisotopic Mass17.02655 Da
IUPAC Nameammonia
Traditional Nameammonia
CAS Registry Number15194-15-7
SMILES
N
InChI Identifier
InChI=1S/H3N/h1H3
InChI KeyQGZKDVFQNNGYKY-UHFFFAOYSA-N
Experimental Spectra
Not Available
Predicted Spectra
Not Available
Chemical Shift Submissions
Not Available
Species
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Lablab purpureusFooDB
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Lagopus mutaFooDB
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Lepidium sativumFooDB
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Lepus timidusFooDB
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Linum usitatissimumFooDB
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LupinusFooDB
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MalusFooDB
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Mammea americanaFooDB
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MenthaFooDB
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Vigna umbellataFooDB
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VitisFooDB
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Vitis vinifera L.FooDB
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Chemical Taxonomy
Description Belongs to the class of inorganic compounds known as homogeneous other non-metal compounds. These are inorganic non-metallic compounds in which the largest atom belongs to the class of 'other non-metals'.
KingdomInorganic compounds  
Super ClassHomogeneous non-metal compounds  
ClassHomogeneous other non-metal compounds  
Sub ClassNot Available
Direct ParentHomogeneous other non-metal compounds  
Alternative ParentsNot Available
Substituents
  • Homogeneous other non metal
Molecular FrameworkNot Available
External Descriptors
Physical Properties
StateNot Available
Experimental Properties
PropertyValueReference
Melting PointNot AvailableNot Available
Boiling PointNot AvailableNot Available
Water SolubilityNot AvailableNot Available
LogPNot AvailableNot Available
Predicted Properties
PropertyValueSource
logP-0.98ChemAxon
pKa (Strongest Basic)8.86ChemAxon
Physiological Charge1ChemAxon
Hydrogen Acceptor Count1ChemAxon
Hydrogen Donor Count1ChemAxon
Polar Surface Area13.59 ŲChemAxon
Rotatable Bond Count0ChemAxon
Refractivity15.51 m³·mol⁻¹ChemAxon
Polarizability1.99 ųChemAxon
Number of Rings0ChemAxon
BioavailabilityYesChemAxon
Rule of FiveYesChemAxon
Ghose FilterNoChemAxon
Veber's RuleYesChemAxon
MDDR-like RuleNoChemAxon
HMDB IDHMDB0000051  
DrugBank IDDBMET01482  
Phenol Explorer Compound IDNot Available
FoodDB IDFDB003908  
KNApSAcK IDC00007267  
Chemspider ID217  
KEGG Compound IDC00014  
BioCyc IDAMMONIA  
BiGG IDNot Available
Wikipedia LinkAmmonia  
METLIN ID3189  
PubChem Compound222  
PDB IDNot Available
ChEBI ID16134  
Good Scents IDNot Available
References
General References
  1. Gregoriou M, Brown PR: Inhibition of the aliphatic amidase from Pseudomonas aeruginosa by urea and related compounds. Eur J Biochem. 1979 May 2;96(1):101-8. doi: 10.1111/j.1432-1033.1979.tb13018.x. [PubMed:110589  ] 
  2. Blei AT: Diagnosis and treatment of hepatic encephalopathy. Baillieres Best Pract Res Clin Gastroenterol. 2000 Dec;14(6):959-74. doi: 10.1053/bega.2000.0141. [PubMed:11139349  ] 
  3. Fox SW: Thermal synthesis of amino acids and the origin of life. Geochim Cosmochim Acta. 1995 Mar;59(6):1213-4. doi: 10.1016/0016-7037(95)00037-z. [PubMed:11540049  ] 
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