Exact Mass: 42.976456

Exact Mass Matches: 42.976456

Found 21 metabolites which its exact mass value is equals to given mass value 42.976456, within given mass tolerance error 0.05 dalton. Try search metabolite list with more accurate mass tolerance error 0.01 dalton.

Cyanate

cyanic acid

CHNO (43.005813599999996)


The cyanate ion is an anion consisting of one oxygen atom, one carbon atom, and one nitrogen atom, [OCN], in that order. The cyanate ion possesses 1 unit of negative charge, borne mainly by the nitrogen atom. In organic compounds the cyanate group is a functional group.; The cyanate ion is an ambident nucleophile in nucleophilic substitution because it can react to form an alkyl cyanate R-OCN (exception) or an alkyl isocyanate R-NCO (rule). Aryl cyanates (C6H5OCN) can be formed by a reaction of phenol with cyanogen chloride (ClCN) in the presence of a base. The cyanate ion is relatively non-toxic in comparison with cyanides. Use of this fact is made in cyanide decontamination processes where a permanganate oxidation converts toxic cyanide to safer cyanate. Cyanate can be decomposed by the enzyme cyanate lyase (or cyanase), which is found in bacteria and plants. In particular cyanate can be decomposed to carbamate (ammonia) and carbon dioxide. Alternately the same enzyme can be used to synthesize cyanate using carbamate and carbon dioxide. [HMDB] The cyanate ion is an anion consisting of one oxygen atom, one carbon atom, and one nitrogen atom, [OCN], in that order. The cyanate ion possesses 1 unit of negative charge, borne mainly by the nitrogen atom. In organic compounds the cyanate group is a functional group. The cyanate ion is an ambident nucleophile in nucleophilic substitution because it can react to form an alkyl cyanate R-OCN (exception) or an alkyl isocyanate R-NCO (rule). Aryl cyanates (C6H5OCN) can be formed by a reaction of phenol with cyanogen chloride (ClCN) in the presence of a base. The cyanate ion is relatively non-toxic in comparison with cyanides. Use of this fact is made in cyanide decontamination processes where a permanganate oxidation converts toxic cyanide to safer cyanate. Cyanate can be decomposed by the enzyme cyanate lyase (or cyanase), which is found in bacteria and plants. In particular cyanate can be decomposed to carbamate (ammonia) and carbon dioxide. Alternately the same enzyme can be used to synthesize cyanate using carbamate and carbon dioxide.

   

Hydrazoic acid

2lambda5-triaz-1-en-2-yne

HN3 (43.0170466)


   

Isocyanic acid

Hydrogen isocyanic acid

CHNO (43.005813599999996)


   

Sodium fluoride

Sodium fluoride

HFNa+ (42.9959978)


   
   
   
   
   

Acetyl radical

Acetyl radical

C2H3O (43.0183888)


   

Formylmethyl

Formylmethyl

C2H3O (43.0183888)


   
   

Aluminum monoxide

Aluminum monoxide

AlO (42.976456)


   
   
   

CID 6610281

CID 6610281

ClHLi (42.9926826)


   

(Hydridonitrato)oxidocarbonate(.1-)

(Hydridonitrato)oxidocarbonate(.1-)

CHNO- (43.005813599999996)


   
   
   

isocyanic acid

isocyanic acid

CHNO (43.005813599999996)


A colourless, volatile, poisonous inorganic compound with the formula HNCO; the simplest stable chemical compound that contains carbon, hydrogen, nitrogen, and oxygen, the four most commonly-found elements in organic chemistry and biology.

   

hydrogen azide

hydrogen azide

HN3 (43.0170466)


   

acetyl

acetyl

C2H3O (43.0183888)


An organic radical derived from acetaldehyde.