Heyns compounds, 2-carboxymethylamino-2-deoxy-D-glucose (1), -mannose (2), and -galactose (3), were prepared by N-carboxymethylation of the corresponding hexosamines and 1 was also prepared via the reaction of D-fructose with glycine. Both 1 and 3 crystallize from aqueous solutions as zwitterions in the alpha-pyranose form and in the 4C1 conformation. Crystalline 1 is nearly isostructural to N-acetylglucosamine, forming stacks of molecules with infinite chains of homodromic hydrogen bonds along the stacks. For both 1 and 3, all hydroxyl, ammonium, and carboxyl groups are involved in intermolecular hydrogen-bonding, and an intramolecular hydrogen bond in 3 is formed via interaction of the ammonium and carboxyl groups. 1H and 13C NMR spectra (D2O solutions) indicate that all of the compounds are conformationally unstable, and that the major form present in D2O solution at 25 degrees C is the 4C1 alpha-pyranose form, with the 4C1 beta-pyranose form present in lesser amounts. In addition, for solutions of 2 and 3, considerable amounts of alpha- and beta-furanose forms are present and exist in conformations favorable for a cis-relationship between the carboxymethylammonium and anomeric hydroxyl groups.