Ammonia
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Basic Info
| Common Name | Ammonia(F03393) |
| 2D Structure | |
| Description | Ammonia is a colorless alkaline gas with a characteristic sharp smell. Ammonia is one of the most abundant nitrogen-containing compounds in the atmosphere. It is an irritant with a characteristic pungent odor, which 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. Ammonia has been shown to be a neurotoxin that 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 is formed in nearly all tissues and organs of the vertebrate organism; it is the most common endogenous neurotoxic compounds. Ammonia can affect the glutamatergic and GABAergic neuronal systems, the two prevailing neuronal systems of the cortical structures. Ammonia is well recognized to be central in the pathogenesis of hepatic encephalopathy and has been of importance to generations dating back to the early Egyptians. 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 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, this organ has only 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. The excessive formation of ammonia in the brains of Alzheimer's disease patients has 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: there is 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. (A7717, A7718, A7719, A7720, A7721). |
| FRCD ID | F03393 |
| CAS Number | 7664-41-7 |
| PubChem CID | 222 |
| Formula | H3N |
| IUPAC Name | azane |
| InChI Key | QGZKDVFQNNGYKY-UHFFFAOYSA-N |
| InChI | InChI=1S/H3N/h1H3 |
| Canonical SMILES | N |
| Isomeric SMILES | N |
| Wikipedia | Ammonia |
| Synonyms |
ammonia
Ammonia anhydrous
7664-41-7
Ammonia gas
azane
Spirit of hartshorn
Nitro-sil
Ammoniakgas
Anhydrous ammonia
Ammonia, anhydrous
|
| Classifies |
Predicted: Pollutant
|
| Update Date | Nov 13, 2018 17:07 |
Chemical Taxonomy
| Kingdom | Inorganic compounds |
| Superclass | Homogeneous non-metal compounds |
| Class | Homogeneous other non-metal compounds |
| Subclass | Not available |
| Intermediate Tree Nodes | Not available |
| Direct Parent | Homogeneous other non-metal compounds |
| Alternative Parents | |
| Molecular Framework | Not available |
| Substituents | Homogeneous other non metal |
| Description | This compound 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'. |
Properties
| Property Name | Property Value |
|---|---|
| Molecular Weight | 17.031 |
| Hydrogen Bond Donor Count | 1 |
| Hydrogen Bond Acceptor Count | 1 |
| Rotatable Bond Count | 0 |
| Complexity | 0 |
| Monoisotopic Mass | 17.027 |
| Exact Mass | 17.027 |
| XLogP | -0.7 |
| Formal Charge | 0 |
| Heavy Atom Count | 1 |
| Defined Atom Stereocenter Count | 0 |
| Undefined Atom Stereocenter Count | 0 |
| Defined Bond Stereocenter Count | 0 |
| Undefined Bond Stereocenter Count | 0 |
| Isotope Atom Count | 0 |
| Covalently-Bonded Unit Count | 1 |
ADMET
| Model | Result | Probability |
|---|---|---|
| Absorption | ||
| Blood-Brain Barrier | BBB+ | 0.9661 |
| Human Intestinal Absorption | HIA+ | 0.9835 |
| Caco-2 Permeability | Caco2+ | 0.7599 |
| P-glycoprotein Substrate | Non-substrate | 0.8904 |
| P-glycoprotein Inhibitor | Non-inhibitor | 0.9847 |
| Non-inhibitor | 0.9874 | |
| Renal Organic Cation Transporter | Non-inhibitor | 0.9068 |
| Distribution | ||
| Subcellular localization | Lysosome | 0.7461 |
| Metabolism | ||
| CYP450 2C9 Substrate | Non-substrate | 0.8500 |
| CYP450 2D6 Substrate | Non-substrate | 0.8103 |
| CYP450 3A4 Substrate | Non-substrate | 0.8303 |
| CYP450 1A2 Inhibitor | Non-inhibitor | 0.9108 |
| CYP450 2C9 Inhibitor | Non-inhibitor | 0.9240 |
| CYP450 2D6 Inhibitor | Non-inhibitor | 0.9357 |
| CYP450 2C19 Inhibitor | Non-inhibitor | 0.9450 |
| CYP450 3A4 Inhibitor | Non-inhibitor | 0.9707 |
| CYP Inhibitory Promiscuity | Low CYP Inhibitory Promiscuity | 0.8311 |
| Excretion | ||
| Toxicity | ||
| Human Ether-a-go-go-Related Gene Inhibition | Weak inhibitor | 0.9391 |
| Non-inhibitor | 0.9755 | |
| AMES Toxicity | Non AMES toxic | 0.9837 |
| Carcinogens | Carcinogens | 0.6116 |
| Fish Toxicity | Low FHMT | 0.5819 |
| Tetrahymena Pyriformis Toxicity | Low TPT | 0.8472 |
| Honey Bee Toxicity | High HBT | 0.7691 |
| Biodegradation | Ready biodegradable | 0.9292 |
| Acute Oral Toxicity | III | 0.5994 |
| Carcinogenicity (Three-class) | Non-required | 0.5999 |
| Model | Value | Unit |
|---|---|---|
| Absorption | ||
| Aqueous solubility | 0.3591 | LogS |
| Caco-2 Permeability | 1.5723 | LogPapp, cm/s |
| Distribution | ||
| Metabolism | ||
| Excretion | ||
| Toxicity | ||
| Rat Acute Toxicity | 2.0168 | LD50, mol/kg |
| Fish Toxicity | 2.1885 | pLC50, mg/L |
| Tetrahymena Pyriformis Toxicity | -0.9037 | pIGC50, ug/L |
References
| Title | Journal | Date | Pubmed ID |
|---|---|---|---|
| Impact of vermiculite on ammonia emissions and organic matter decomposition offood waste during composting. | Bioresour Technol | 2018 Sep | 29778793 |
| The food additive BHA modifies energy metabolism in the perfused rat liver. | Toxicol Lett | 2018 Oct 9 | 30308228 |
| Origanum vulgare essential oils inhibit glutamate and aspartate metabolism altering the photorespiratory pathway in Arabidopsis thaliana seedlings. | J Plant Physiol | 2018 Oct 11 | 30343221 |
| Photocatalytic activity of CuO/Cu(OH)<sub>2</sub> nanostructures in the degradation of Reactive Green 19A and textile effluent, phytotoxicity studies and their biogenic properties (antibacterial and anticancer). | J Environ Manage | 2018 Oct 1 | 29735295 |
| Carbon: Nitrogen (C:N) ratio level variation influences microbial community of the system and growth as well as immunity of shrimp (Litopenaeus vannamei) in biofloc based culture system. | Fish Shellfish Immunol | 2018 Oct | 30016684 |
| Safety Evaluations of <i>Bifidobacterium bifidum</i> BGN4 and <i>Bifidobacterium longum</i> BORI. | Int J Mol Sci | 2018 May 9 | 29747442 |
| Reduction of RuVI≡N to RuIII-NH3 by Cysteine in Aqueous Solution. | Inorg Chem | 2018 May 21 | 29708333 |
| Catalytic amino acid production from biomass-derived intermediates. | Proc Natl Acad Sci U S A | 2018 May 15 | 29712826 |
| Silage review: Animal and human health risks from silage. | J Dairy Sci | 2018 May | 29685279 |
| Changes in polyphenol profile of dried apricots containing SO2 at variousconcentrations during storage. | J Sci Food Agric | 2018 May | 29023817 |
| Transcriptome-Based Analysis in Lactobacillus plantarum WCFS1 Reveals NewInsights into Resveratrol Effects at System Level. | Mol Nutr Food Res | 2018 May | 29573169 |
| A synbio approach for selection of highly expressed gene variants inGram-positive bacteria. | Microb Cell Fact | 2018 Mar 8 | 29519251 |
| Controlled Gas Uptake in Metal-Organic Frameworks with Record Ammonia Sorption. | J Am Chem Soc | 2018 Mar 7 | 29425040 |
| Forms of selenium in vitamin-mineral mixes differentially affect serum prolactin concentration and hepatic glutamine synthetase activity of steers grazing endophyte-infected tall fescue. | J Anim Sci | 2018 Mar 6 | 29385471 |
| Self-Assembled Binuclear Cu(II)-Histidine Complex for Absolute Configuration and Enantiomeric Excess Determination of Naproxen by Tandem Mass Spectrometry. | Anal Chem | 2018 Mar 20 | 29455521 |
| Gut : liver : brain axis: the microbial challenge in the hepatic encephalopathy. | Food Funct | 2018 Mar 1 | 29485654 |
| High-grain diets supplemented with phytogenic compounds or autolyzed yeastmodulate ruminal bacterial community and fermentation in dry cows. | J Dairy Sci | 2018 Mar | 29331466 |
| Lactation response to soybean meal and rumen-protected methionine supplementationof corn silage-based diets. | J Dairy Sci | 2018 Mar | 29290449 |
| Lobohedleolide suppresses hepatitis C virus replication via JNK/c-Jun-C/EBP-mediated down-regulation of cyclooxygenase-2 expression. | Sci Rep | 2018 Jun 6 | 29875371 |
| Modulation of gastrointestinal barrier and nutrient transport function in farmanimals by natural plant bioactive compounds - A comprehensive review. | Crit Rev Food Sci Nutr | 2018 Jun 11:1-30 | 29889546 |
Targets
- General Function:
- Temperature-gated cation channel activity
- Specific Function:
- Receptor-activated non-selective cation channel involved in detection of pain and possibly also in cold perception and inner ear function (PubMed:25389312, PubMed:25855297). Has a central role in the pain response to endogenous inflammatory mediators and to a diverse array of volatile irritants, such as mustard oil, cinnamaldehyde, garlic and acrolein, an irritant from tears gas and vehicule exhaust fumes (PubMed:25389312, PubMed:20547126). Is also activated by menthol (in vitro)(PubMed:25389312). Acts also as a ionotropic cannabinoid receptor by being activated by delta(9)-tetrahydrocannabinol (THC), the psychoactive component of marijuana (PubMed:25389312). May be a component for the mechanosensitive transduction channel of hair cells in inner ear, thereby participating in the perception of sounds. Probably operated by a phosphatidylinositol second messenger system (By similarity).
- Gene Name:
- TRPA1
- Uniprot ID:
- O75762
- Molecular Weight:
- 127499.88 Da
References
- Nilius B, Prenen J, Owsianik G: Irritating channels: the case of TRPA1. J Physiol. 2011 Apr 1;589(Pt 7):1543-9. doi: 10.1113/jphysiol.2010.200717. Epub 2010 Nov 15. [21078588 ]
- General Function:
- Receptor binding
- Specific Function:
- C3 plays a central role in the activation of the complement system. Its processing by C3 convertase is the central reaction in both classical and alternative complement pathways. After activation C3b can bind covalently, via its reactive thioester, to cell surface carbohydrates or immune aggregates.Derived from proteolytic degradation of complement C3, C3a anaphylatoxin is a mediator of local inflammatory process. In chronic inflammation, acts as a chemoattractant for neutrophils (By similarity). It induces the contraction of smooth muscle, increases vascular permeability and causes histamine release from mast cells and basophilic leukocytes.C3-beta-c: Acts as a chemoattractant for neutrophils in chronic inflammation.Acylation stimulating protein: adipogenic hormone that stimulates triglyceride (TG) synthesis and glucose transport in adipocytes, regulating fat storage and playing a role in postprandial TG clearance. Appears to stimulate TG synthesis via activation of the PLC, MAPK and AKT signaling pathways. Ligand for C5AR2. Promotes the phosphorylation, ARRB2-mediated internalization and recycling of C5AR2 (PubMed:8376604, PubMed:2909530, PubMed:9059512, PubMed:10432298, PubMed:15833747, PubMed:16333141, PubMed:19615750).
- Gene Name:
- C3
- Uniprot ID:
- P01024
- Molecular Weight:
- 187146.73 Da
- Mechanism of Action:
- Ammonia can chemically interact with an internal thiolester bond of complement 3 . This causes a conformation change in C3, which activates the alternative complement pathway, causing the release of chemoattractants and the assembly of the membrane attack complex of complement. The altered C3 can also bind directly to phagocyte complement receptors, which causes the release of toxic oxygen species.
References
- ATSDR - Agency for Toxic Substances and Disease Registry (2004). Toxicological profile for ammonia. U.S. Public Health Service in collaboration with U.S. Environmental Protection Agency (EPA). : http://www.atsdr.cdc.gov/toxprofiles/tp126.html