Carbamic acid
Carbamic acid, which might also be called aminoformic acid or aminocarboxylic acid, is the chemical compound with the formula. It can be obtained by the reaction of ammonia and carbon dioxide at very low temperatures, which also yields ammonium carbamate. The compound is stable only up to about 250 K ; at higher temperatures it decomposes into those two gases. The solid apparently consists of dimers, with the two molecules connected by hydrogen bonds between the two carboxyl groups –COOH.
Carbamic acid could be seen as both an amine and carboxylic acid, and therefore an amino acid; however, the attachment of the carboxyl group –COOH directly to the nitrogen atom makes it behave very differently from the amino acids with intermediate carbon chain. The hydroxyl group –OH attached to the carbon also excludes it from the amide class.
The term "carbamic acid" is also used generically for any compounds of the form RR′NCOOH, where R and R′ are organic groups or hydrogen.
Deprotonation of a carbamic acid yields a carbamate anion, the salts of which can be relatively stable. Carbamate is also a term used for esters of carbamic acids, such as methyl carbamate. The carbamoyl functional group RR′N–C– is the carbamic acid molecule minus the OH part of the carboxyl.
Structure
Carbamic acid is a planar molecule.The group of carbamic acid, unlike that of most amines, cannot be protonated to an ammonium group. The zwitterionic form is very unstable and promptly decomposes into ammonia and carbon dioxide, yet there is a report of its detection in ices irradiated with high-energy protons.
Derivatives
Carbamic acid is formally the parent compound of several important families of organic compounds:Carbamic acids
Many substituted carbamic acids, can be readily synthesized by bubbling carbon dioxide through solutions of the corresponding amine in an appropriate solvent, such as DMSO or supercritical carbon dioxide. These carbamic acids are generally unstable at room temperature, reverting to the parent amine and carbon dioxide.Carbamate esters
Unlike carbamic acids, carbamate esters are generally stable at room temperature as a higher state. They are prepared by reaction of carbamoyl chlorides with alcohols, the addition of alcohols to isocyanates, and the reaction of carbonate esters with ammonia. Methyl carbamate and ethyl carbamate are among the simplest examples and have historically been used in the textile industry, both are now suspected carcinogens. Benzyl carbamate is also known.Occurrence in nature
The enzyme class carbamate kinase, involved in several metabolic pathways of living organisms, catalyzes the formation of carbamoyl phosphate :An important example of an enzyme with this activity is carbamoyl phosphate synthetase, e.g. carbamoyl phosphate synthetase I carrying out the first step of the urea cycle in order to dispose of waste ammonia.
One hemoglobin molecule can carry four molecules of carbon dioxide to the lungs as carbamate groups formed by reaction of with four terminal amine groups of the deoxy form. The resulting compound is called carbaminohaemoglobin.