Exact Mass: 183.95351680000002
Exact Mass Matches: 183.95351680000002
Found 192 metabolites which its exact mass value is equals to given mass value 183.95351680000002
,
within given mass tolerance error 0.05 dalton. Try search metabolite list with more accurate mass tolerance error
0.01 dalton.
Chelidonic acid
Chelidonic acid, also known as 4-oxo-4h-pyran-2,6-dicarboxylic acid or chelidonate, belongs to pyranones and derivatives class of compounds. Those are compounds containing a pyran ring which bears a ketone. Chelidonic acid is soluble (in water) and a moderately acidic compound (based on its pKa). Chelidonic acid can be found in corn, which makes chelidonic acid a potential biomarker for the consumption of this food product. Chelidonic acid is a heterocyclic organic acid with a pyran skeleton . Chelidonic acid is a component of Chelidonium majus L., used as an antimicrobial. Chelidonic acid also shows anti-inflammatory activity. Chelidonic acid has potential to inhibit IL-6 production by blocking NF-κB and caspase-1[1]. Chelidonic acid is a glutamate decarboxylase inhibitor, with a Ki of 1.2 μM[2]. Chelidonic acid is a component of Chelidonium majus L., used as an antimicrobial. Chelidonic acid also shows anti-inflammatory activity. Chelidonic acid has potential to inhibit IL-6 production by blocking NF-κB and caspase-1[1]. Chelidonic acid is a glutamate decarboxylase inhibitor, with a Ki of 1.2 μM[2].
Tungsten
W (183.950953)
Tungsten is a transition metal found, along with chromium, molybdenum and seaborgium, in Group VI of the Periodic Table of elements. Since its discovery in the last quarter of 18th century, tungsten-based products have been in use in a wide range of applications stretching from daily household necessities to highly specialized components of modern science and technology. As new applications and uses are discovered continuously, interest on and demand for tungsten, already an essential commodity, are projected to increase steadily in the years to come. Unavoidably, as is the case with other natural materials and/or non-renewable resources, increased demand and use of tungsten will spawn (a) increased interactions with other materials and/or non-sustainable practices, (b) a greater number of possible entry points into the natural and human environment and (c) a higher probability of deliberate or accidental releases. Currently, the existing knowledge base does not provide clear information about the behavior of tungsten-based products in the environment. The toxicological profile of tungsten, including possible effects on living organisms and exposure pathways, remains rather sketchy, narrow and fragmentary. Regulation of tungsten, both in terms of environmental and occupational safety and health, is at present limited in comparison with other metals. This pattern of environmental obscurity has been unequivocally disrupted by the events of Fallon, Nevada and the possible implication of tungsten to an acute lymphocytic leukemia (ALL) cluster. Tungsten is now the focus of scrutiny as it currently occupies the top of to do lists of various regulatory, health and environmental agencies. The occurrence of a childhood leukemia cluster in Fallon, Nevada prompted a wide investigation that involved several local, state and federal agencies led by the Centers of Disease Control (CDC). In essence, the objective of this investigation was to assess whether environmental causes were responsible for the cluster. The 16 reported leukemia cases within the time frame of 1997-2001, were well above the average for Nevada (3.0 cases/100,000 children/5 years). Several possible causes were proposed, such as jet fuel (JP-8) from a nearby military base or from a JP-8 pipeline running through the city, high levels of arsenic and other metals in the drinking water supplies, industrial pollution from a local tungsten smelting facility, and agrochemical contamination resulting from agricultural pesticide/fungicide use. Although the exact causes of leukemia are not well known, genetic and/or environmental factors may trigger the disease including ionizing and electromagnetic radiation, infectious and chemical agents. Physiologically, it exists as an ion in the body.(PMID: 16343746). Tungsten is a chemical element with the chemical symbol W and atomic number 74. Tungsten is the only metal from the third transition series that is known to occur in biomolecules, where it is used in a few species of bacteria. It is the heaviest element known to be used by any living organism. Tungsten interferes with molybdenum and copper metabolism, and is somewhat toxic to animal life. [Wikipedia]. Tungsten is found in many foods, some of which are orange bell pepper, black walnut, parsnip, and eggplant.
Phosphohydroxypyruvic acid
Phosphohydroxypyruvic acid is a prduct of both enzyme phosphoglycerate dehydrogenase [EC 1.1.1.95] and phosphoserine transaminase [EC 2.6.1.52] in glycine, serine and threonine metabolism pathway (KEGG). This compound belongs to the family of Organophosphate Esters. These are organic compounds containing phosphoric acid ester functional group. Phosphohydroxypyruvic acid is a prduct of both enzyme phosphoglycerate dehydrogenase [EC 1.1.1.95] and phosphoserine transaminase [EC 2.6.1.52] in glycine, serine and threonine metabolism pathway (KEGG). [HMDB]
Enflurane
C3H2ClF5O (183.97143319999998)
Enflurane is only found in individuals that have used or taken this drug. It is an extremely stable inhalation anesthetic that allows rapid adjustments of anesthesia depth with little change in pulse or respiratory rate. [PubChem]Enflurane induces a reduction in junctional conductance by decreasing gap junction channel opening times and increasing gap junction channel closing times. Enflurane also activates calcium dependent ATPase in the sarcoplasmic reticulum by increasing the fluidity of the lipid membrane. It also appears to bind the D subunit of ATP synthase and NADH dehydogenase. Enflurane also binds to and angonizes the GABA receptor, the large conductance Ca2+ activated potassium channel, the glycine receptor, and antagonizes the glutamate receptor receptor. These yield a decreased depolarization and therefore, tissue excitability which results in anesthesia. D002491 - Central Nervous System Agents > D002492 - Central Nervous System Depressants > D000777 - Anesthetics N - Nervous system > N01 - Anesthetics > N01A - Anesthetics, general > N01AB - Halogenated hydrocarbons C78272 - Agent Affecting Nervous System > C245 - Anesthetic Agent
Isoflurane
C3H2ClF5O (183.97143319999998)
Isoflurane is only found in individuals that have used or taken this drug. It is a stable, non-explosive inhalation anesthetic, relatively free from significant side effects. [PubChem]Isoflurane induces a reduction in junctional conductance by decreasing gap junction channel opening times and increasing gap junction channel closing times. Isoflurane also activates calcium dependent ATPase in the sarcoplasmic reticulum by increasing the fluidity of the lipid membrane. Also appears to bind the D subunit of ATP synthase and NADH dehydogenase. Isoflurane also binds to the GABA receptor, the large conductance Ca2+ activated potassium channel, the glutamate receptor and the glycine receptor. D002491 - Central Nervous System Agents > D002492 - Central Nervous System Depressants > D000777 - Anesthetics N - Nervous system > N01 - Anesthetics > N01A - Anesthetics, general > N01AB - Halogenated hydrocarbons C78272 - Agent Affecting Nervous System > C245 - Anesthetic Agent
Chelidonic_acid
Chelidonic acid is a carbonyl compound and a member of pyrans. Chelidonic acid is a natural product found in Zea mays, Leucojum aestivum, and other organisms with data available. See also: Chelidonium majus flowering top (part of). Chelidonic acid is a component of Chelidonium majus L., used as an antimicrobial. Chelidonic acid also shows anti-inflammatory activity. Chelidonic acid has potential to inhibit IL-6 production by blocking NF-κB and caspase-1[1]. Chelidonic acid is a glutamate decarboxylase inhibitor, with a Ki of 1.2 μM[2]. Chelidonic acid is a component of Chelidonium majus L., used as an antimicrobial. Chelidonic acid also shows anti-inflammatory activity. Chelidonic acid has potential to inhibit IL-6 production by blocking NF-κB and caspase-1[1]. Chelidonic acid is a glutamate decarboxylase inhibitor, with a Ki of 1.2 μM[2].
Methyl 2-propenyl tetrasulfide
Methyl 2-propenyl tetrasulfide is found in onion-family vegetables. Methyl 2-propenyl tetrasulfide is isolated from garlic oi Isolated from garlic oil. Methyl 2-propenyl tetrasulfide is found in onion-family vegetables.
Methylpropenyl tetrasulfide
Methylpropenyl tetrasulfide can be found in soft-necked garlic, which makes methylpropenyl tetrasulfide a potential biomarker for the consumption of this food product.
5,6-Dihydro-6-methyl-4H-thieno[2,3-b]thiopyran-4-one
Acetyl phosphate(lithium potassium)
Acetyl phosphate (lithium potassium) is an endogenous metabolite.
2-(Carbamimidoylthio)ethanesulfonic acid
C3H8N2O3S2 (183.99763380000002)
6-METHYL-5,6-DIHYDRO-4H-THIENO[2,3-B]THIOPYRAN-4-ONE
Acetic acid, 2-sulfo-,sodium salt (1:2)
C2H2Na2O5S (183.94183619999998)
4-amino-5-trifluoromethyl-4h-1,2,4-triazole-3-thiol
C3H3F3N4S (184.00305139999998)
2-Propanol,1-chloro-1,1,3,3,3-pentafluoro-
C3H2ClF5O (183.97143319999998)
4-Diazoniobenzenesulfonate
D019995 - Laboratory Chemicals > D007202 - Indicators and Reagents
Tetracyclo[3.2.0.02,7.04,6]heptanone, 2-bromo- (9CI)
Magnesium hexafluorosilicate hexahydrate
F6H2MgOSi (183.96296139999998)
2-Thioxo-2,3-dihydrothieno[2,3-d]pyrimidin-4(1H)-one
Thioglycolic Acid Calcium Salt Trihydrate
C2H8CaO5S (183.97183479999998)
Jerva acid
Chelidonic acid is a component of Chelidonium majus L., used as an antimicrobial. Chelidonic acid also shows anti-inflammatory activity. Chelidonic acid has potential to inhibit IL-6 production by blocking NF-κB and caspase-1[1]. Chelidonic acid is a glutamate decarboxylase inhibitor, with a Ki of 1.2 μM[2]. Chelidonic acid is a component of Chelidonium majus L., used as an antimicrobial. Chelidonic acid also shows anti-inflammatory activity. Chelidonic acid has potential to inhibit IL-6 production by blocking NF-κB and caspase-1[1]. Chelidonic acid is a glutamate decarboxylase inhibitor, with a Ki of 1.2 μM[2].
(2E,4E)-2-hydroxy-4-(2-oxoethylidene)pent-2-enedioate
L-serine O-sulfate(1-)
C3H6NO6S- (183.99158359999998)
Conjugate base of L-serine O-sulfate having the carboxylic acid and sulfate functions in anionic form and a protonated nitrogen.
(R)-2-(carboxylatomethyl)-5-oxo-2,5-dihydro-2-furoate
(2Z,4Z)-2-hydroxy-5-carboxymuconate-6-semialdehyde
(2E,4Z)-2-hydroxy-5-carboxymuconate-6-semialdehyde
(E,2E)-2-[carboxy(oxido)methylidene]-5-oxopent-3-enoate
Se-methylselenocysteinium
An alpha-amino acid cation having methylselanylmethyl as the side-chain.
Se-methyl-D-selenocysteinium
A D-alpha-amino acid cation having methylselanylmethyl as the side-chain.
Se-methyl-L-selenocysteinium
An L-alpha-amino acid cation having methylselanylmethyl as the side-chain.
isoflurane
C3H2ClF5O (183.97143319999998)
D002491 - Central Nervous System Agents > D002492 - Central Nervous System Depressants > D000777 - Anesthetics N - Nervous system > N01 - Anesthetics > N01A - Anesthetics, general > N01AB - Halogenated hydrocarbons C78272 - Agent Affecting Nervous System > C245 - Anesthetic Agent
enflurane
C3H2ClF5O (183.97143319999998)
D002491 - Central Nervous System Agents > D002492 - Central Nervous System Depressants > D000777 - Anesthetics N - Nervous system > N01 - Anesthetics > N01A - Anesthetics, general > N01AB - Halogenated hydrocarbons C78272 - Agent Affecting Nervous System > C245 - Anesthetic Agent
3-Phosphoglycerate(2-)
A phosphoglycerate obtained by deprotonation of the carboxy group and one of the phosphate OH groups of 3-phosphoglyceric acid.
3-Phosphonooxypyruvic acid
A carboxyalkyl phosphate that is pyruvic acid substituted at position 3 by a 3-phosphonooxy group.
2-sulfobenzoic anhydride
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