- Formose reaction
The formose reaction, discovered by
Aleksandr Butlerov in 1861 [Butlerov, A. C. R. Acad. Sci. 1861, 53, 145-147] ["Self-organizing biochemical cycles "PNAS | November 7, 2000 | vol. 97 | no. 23 | 12503-1250 DOI|10.1073/pnas.220406697] , involves the formation of sugars fromformaldehyde . Formose is a contraction of formaldehyde and aldose.Reaction and mechanism
The reaction is
catalyzed by a base and a divalent metal such ascalcium hydroxide . The intermediary steps taking place arealdol reaction s, reverse Aldol reactions, andaldose-ketose isomerization s. Intermediates areglycolaldehyde ,glyceraldehyde ,dihydroxyacetone , andtetrose sugars. In 1959, Breslow proposed a mechanism for the reaction, consisting of the following steps: [Breslow, R. Tetrahedron Lett. 1959, 1, 21, 22-26.]The reaction begins with two formaldehyde molecules condensing to make glycolaldehyde 1 which further reacts in an aldol reaction with another equivalent of formaldehyde to make glyceraldehyde 2. An aldose-ketose isomerization of 2 forms
dihydroxyketone 3 which can react with 2 to formribulose 4, and through another isomerizationribose 5. Molecule 3 also can react with formaldehyde to producetetrulose 6 and thenaldoltetrose 7. Intermediate 7 can split into 2 in a retro-aldol reaction.Significance
The formose reaction is of importance to the question of the origin of life as it is a path from simple formaldehyde to complex sugars like
ribose and from there toRNA . In one experiment simulating early Earth conditions, pentoses formed from mixtures of formaldehyde, glyceraldehyde, andborate minerals such ascolemanite Ca2B6O115H2O orkernite Na2B4O7. ["Borate Minerals Stabilize Ribose" A. Ricardo, "et al." Science 303, 196 (2004); DOI|10.1126/science.1092464] Adding to the interest in the formose reaction is the fact that bothformaldehyde andglycolaldehyde have been observed spectroscopically inouter space .References
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