Exact Mass: 91.9687

Exact Mass Matches: 91.9687

Found 40 metabolites which its exact mass value is equals to given mass value 91.9687, within given mass tolerance error 0.05 dalton. Try search metabolite list with more accurate mass tolerance error 0.01 dalton.

mercaptoacetic acid

2-Mercaptoacetate, calcium salt (2:1) salt, trihydrate

C2H4O2S (91.9932)


   

trans-3-Chloro-2-propene-1-ol

3-Chloroallyl alcohol, (Z)-isomer

C3H5ClO (92.0029)


This compound belongs to the family of Primary Alcohols. These are compounds comprising the primary alcohol functional group, with the general strucuture RCOH (R=alkyl, aryl)

   

(Chloromethyl)oxirane

(RS)-3-Chloro-1,2-epoxypropane

C3H5ClO (92.0029)


(Chloromethyl)oxirane is used for cross-linking dextrose units in food starc It is used for cross-linking dextrose units in food starch.

   

cis-3-Chloro-2-propene-1-ol

cis-3-Chloro-2-propene-1-ol

C3H5ClO (92.0029)


This compound belongs to the family of Primary Alcohols. These are compounds comprising the primary alcohol functional group, with the general strucuture RCOH (R=alkyl, aryl)

   

Cyanosulfurous acid anion

dihydroxy-lambda3-sulfanecarbonitrile

CH2NO2S (91.9806)


The OSCN- ion inhibits bacterial glyceraldehyde 3-P dehydrogenases (11, 24) and. thereby stops the bacterial production of acids from sugars. The inhibition of bacterial acid production by OSCN- has been implicated as playing an important role in the prevention of dental caries. Lactoperoxidase in the presence of thiocyanate detoxifies hydrogen peroxide by converting it into OSCN-, and OSCN- prevents bacteria from excreting hydrogen peroxide by inhibiting glyceraldehyde 3-P dehydrogenase. Because of this inhibition, no NADH is generated in the bacteria, and the hydrogen peroxide-producing NADH oxidases become short of their substrate, NADH. This inhibition of glycolysis usually has a bacteriostatic effect. In recent studies, significant levels of OSCN- have been found in saliva collected directly from the ducts of the salivary glands. This indicates that hydrogen peroxide is actually produced within the salivary glands; thus, lactoperoxidase and thiocyanate may also play an important role in protecting the salivary glands and ducts against hydrogen peroxide toxicity. The products of the lactoperoxidase-thiocyanate-hydrogen peroxide reaction have also been reported to be bactericidal. This effect has been ascribed to OSCN-, but it has also been suggested that higher oxyacids of the thiocyanate ion, cyanosulfurous and cyanosulfuric acids, may be formed in the lactoperoxidase reaction, and these acids may be the effective molecular species in the. killing. The OSCN- ion inhibits bacterial glyceraldehyde 3-P dehydrogenases (11, 24) and

   

Hydroxymethyl hydrogen carbonate

Hydroxymethyl hydrogen carbonic acid

C2H4O4 (92.011)


   

Chloroacetone

Chloromethyl methyl ketone

C3H5ClO (92.0029)


   

Propionyl chloride

Propionyl chloride

C3H5ClO (92.0029)


   

3-Chloroallyl alcohol

trans-3-Chloroallyl alcohol

C3H5ClO (92.0029)


   

Propionyl chloride

Propionyl chloride

C3H5ClO (92.0029)


   

Silicic acid, methyl ester

Silicic acid, methyl ester

CH4O3Si (91.993)


   

(S)-Epichlorohydrin

(S)-(+)-Epichlorhydrin

C3H5ClO (92.0029)


   

(R)-(-)-Epichlorohydrin

(R)-(-)-Epichlorohydrin

C3H5ClO (92.0029)


   

CHLOROPROPANAL

CHLOROPROPANAL

C3H5ClO (92.0029)


   

Silicone disulfide

Silicone disulfide

S2Si (91.9211)


   

2-Oxoacetic acid

2-Oxoacetic acid

C2H4O4 (92.011)


2,2-Dihydroxyacetic acid is an endogenous metabolite.

   

der 736 resin

der 736 resin

C3H5ClO (92.0029)


   

Aminoacetonitrile hydrochloride

Aminoacetonitrile hydrochloride

C2H5ClN2 (92.0141)


   

3-chlorooxetane

3-chlorooxetane

C3H5ClO (92.0029)


   

2-Chloro-2-propen-1-ol

2-Chloro-2-propen-1-ol

C3H5ClO (92.0029)


   

trifluorochlorine

Chlorine trifluoride

ClF3 (91.9641)


D020011 - Protective Agents > D002327 - Cariostatic Agents > D005459 - Fluorides

   

calcium cyanide

calcium cyanide

C2CaN2 (91.9687)


   

nickel(ii) hydroxide

nickel(ii) hydroxide

H2NiO2 (91.9408)


   

nitrogen dioxide

Dinitrogen tetroxide

N2O4 (91.9858)


   

glyoxylic acid hydrate

glyoxylic acid hydrate

C2H4O4 (92.011)


   

dimethylaluminum chloride

dimethylaluminum chloride

C2H6AlCl (91.9973)


   

disilicon tricarbide

disilicon tricarbide

C3Si2 (91.9539)


   

Chlorine trifluoride

Chlorine trifluoride

ClF3 (91.9641)


   

Orthosilicate

Orthosilicate

O4Si-4 (91.9566)


   

Disulfur dinitride

Disulfur dinitride

N2S2 (91.9503)


   

Dithiocarbamate

Dithiocarbamate

CH2NS2- (91.9629)


   

1,2-Dinitrosodioxidane

1,2-Dinitrosodioxidane

N2O4 (91.9858)


   

Hydroperoxyacetic acid

Hydroperoxyacetic acid

C2H4O4 (92.011)


   

Thioglycolic acid

mercaptoacetic acid

C2H4O2S (91.9932)


   

trans-3-Chloroallyl alcohol

trans-3-Chloroallyl alcohol

C3H5ClO (92.0029)


   

cis-3-Chloroallyl alcohol

cis-3-Chloroallyl alcohol

C3H5ClO (92.0029)


   

1-Chloro-2,3-epoxypropane

1-Chloro-2,3-epoxypropane

C3H5ClO (92.0029)


   

Chloroacetone

Chloroacetone

C3H5ClO (92.0029)


   

trans-3-chloroprop-2-en-1-ol

trans-3-chloroprop-2-en-1-ol

C3H5ClO (92.0029)


   

cis-3-chloroprop-2-en-1-ol

cis-3-chloroprop-2-en-1-ol

C3H5ClO (92.0029)