O NMR of Enamino-Diesters: Intramolecular Hydrogen Bonding in 5- Alkylaminomethylene-2,2-dimethyl-1,3-dioxane-4,6-diones*

O NMR, enamino-diesters, intramolecular hydrogen bonding.IntroductionEnamino-diesters [1] are useful starting materials forthe synthesis of heterocyclic compounds [1], andantimalarial drug choroquine and similar products ofmedicinal interest [2]. The diacylvinyl groups have beenused to protect the amino group of amino acids during thesysthesis of peptides and penicillin derivatives [3], andamino sugars during Fischer glycosidation [4]. Theproperties of enamino-diesters have been investigated byUV [5], IR [6], and


Introduction
Enamino-diesters [1] are useful starting materials for the synthesis of heterocyclic compounds [1], and antimalarial drug choroquine and similar products of medicinal interest [2].The diacylvinyl groups have been used to protect the amino group of amino acids during the systhesis of peptides and penicillin derivatives [3], and amino sugars during Fischer glycosidation [4].The properties of enamino-diesters have been investigated by UV [5], IR [6], and 1 H [6a, 7], 13 C [8], 15 N NMR [9], and X-ray crystallography [10].These studies confirmed the presence of an intramolecular C=O ... HN bond in primary and secondary enamino-diesters. 17O NMR is a particularly useful tool for the study of intramolecular hydrogen bonding in organic compounds [11,12].Recently the 17 O NMR spectra of enaminones and enamino-diketones have been investigated [13].The shielding of the carbonyl O-atom by intramolecular hydrogen-bonding (∆δ HB ), ranging from -14 to -47 ppm, was sensitive to the nature, number and position of the substituents. 17O NMR investigations of enamino-diesters have not been reported.
To evaluate the sensitivity of the C=O ... H-N type of intramolecular hydrogen bonding on the 17 O shift value of the hydrogen bonded carbonyl group, the 17 O NMR spectra of a series of 5-alkylaminomethylene-2,2-dimethyl-1,3-dioxane-4,6-diones (1a-1h) have been investigated.

Results and Discussion
The 17 O-NMR data of enamino-diesters 1a-1h are listed in Table 1.The 17 O NMR spectra of these types of compounds exhibit three 17 O signals: alkoxy O-4 atom appears at 185-189 ppm and two carbonyl O atoms are at 304-314 and 317-326 ppm.The 1 H-N signal appears at 9.2 -11.2 ppm (Table 1), indicating the existence of strong intramolecular hydrogen bonding in molecules.On the basis of the shielding effects of intramolecular hydrogen bonding upon the 17 O shift value [11,12], the signal at 304-314 ppm is assigned to the hydrogen bonded carbonyl O-1 atom and the signal at 317-326 ppm to the free carbonyl O-3 atom.Table 1. 17O, 13 C and 1 H NMR data (ppm) of 1a-1h.The results in Table 1 show that the δ( 17 O) values are influenced by the nature of the nitrogen substitutents.As previously observed for enaminones and enaminodiketones [13], the 17 In the correlations, enamino-diesters with a primary amino group (1a) were excluded because of the influence due to intermolecular hydrogen bonding [13].The slopes of the correlations show that the substituent effects on the shielding of O-atoms in enamino-diesters are much less sensitive than those in enaminones and enamino-diketones [13].
The δ(17 O) values of the carbonyl O atoms, as those noted for enaminones and enamino-diketones [13], are dependent on the donor power of the amines.The 17 O data of enaminones and enamino-diketones have been shown to correlate with the pK a values of the amines [13].Reasonable correlations between the δ( 17 O), δ( 13 C-2) and δ( 1 HN) values of enamino-diesters (1) and pK a values [14] of the corresponding amines were observed [Eqns (3)- (7)].The small negative slopes (-1.28 to -1.47) of the correlations for δ( 17 O) values, compared with those noted for enaminones (ca.-4.5) and enamino-diketones (ca.-2.9) [13], show that the electron donating alkyoxy group at the carbonyl carbon diminishes the shielding effect of the amine group to the carbonyl O-atom, and also indicate that the n,π-conjugation between amino group and C=C double bond is reduced.This can be attributed to the resonance effects between the carbonyl and alkyloxy groups.The existence of secondary electron donating groups on the carbonyl carbon diminishes the shielding of the electron donating group to the carbonyl O-atom.This has been previously noted in the series of acetone (569 ppm), N,Ndimethylacetamide (338 ppm) and tetramethylurea (273 ppm) [15] and also in the series of but-3-en-2-one (563 ppm), ethyl acrylate (338 ppm) and ethyl 3dimethylaminoprop-2-enoate (295 ppm) [15]. 17O NMR data has been shown to be sensitive to intramolecular hydrogen bonding [11].The shielding in the 17 O shift value by the hydrogen bonding components (∆δ HB value) has been shown to depend on the H-donor and H-acceptor groups.The ∆δ HB values of -50, -30, -19 and -10 ppm have been reported for ketone [12f, g], aldehyde [12h] and amide [12a, j], and ester [12k] carbonyl oxygens, respectively; the difference between these values has been attributed to differences in basicity of the carbonyl groups.For the N-H … O=C type of intramolecular hydrogen bonding in enaminones and enamino-diketones ∆δ HB values range from -14 to -47 ppm [13].
It has been demonstrated that the 17 O NMR parameters are sensitive to electronic effects, torsional angles, steric interactions and intramolecular hydrogen bonding [11,12].Therefore, to evaluate the ∆δ HB values these factors should be taken into account.IR [6a] and X-ray [10] analyses show that the conjugated system in hydrogen bonded enamino-diesters (1) is essentially planar, and that electron delocalization affects both carbonyl groups almost equally.This demonstrates that the contribution of electronic and torsional effects to observed chemical shifts can be considered negligible.Thus, the 17 O chemical shift differences (∆δ HB ) between the carbonyl groups O-1 and O-3 in enamino-diesters with primary or secondary amino groups are attributed mainly to the intramolecular hydrogen bonding.
The ∆δ HB values (Tables 1) for enamino-diesters 1a-1h, ranging from -11 to -17 ppm, are much smaller than those found for 2,2-diacetyl-enamines (ca.-30 ppm) [13b].It is well known that ester carbonyl groups are less basic than ketones carbonyls [16], and consequently ester carbonyls are expected to be poorer hydrogen bond acceptors than ketone carbonyls.The small ∆δ HB values is consistent with the lower basicity of the ester carbonyl groups.The ∆δ HB values, -4 to -13 ppm have been previously noted for hydroxypyridine carboxy esters and benzoates [12k].

Conclusion
The results of this paper demonstrate that the effects of the N-alkyl substituents on 17 O shift values of the carbonyl groups in enamino-diesters are diminished, in comparison to those in enaminones and enamino-diketones.This is attributed to the resonance between the carbonyl and alkyloxy groups. 17O NMR data show clearly the existence of intramolecular hydrogen bonding in enamino-diesters.The shielding effect of intramolecular hydrogen bonding of a NH to an ester carbonyl, ranging from -11 to -17 ppm, is much smaller than that for analogous diacetyl-enamine carbonyl groups (ca.-30 ppm).This is because of the lower basicity of the ester carbonyl groups.

Experimental
General 1 H NMR and 13 C NMR spectra (δ, in ppm; J, in Hz; relative to internal TMS in CDCl 3 solns.at 20°C) were recorded on Bruker WH-250 and Bruker Advance DPX-400 spectrometers, MS (electron impact mass spectrum; m/z in % of base peak) on a Nermag R-10-10C spectrometer.Melting points (M.p.) were observed under a microscope using a Mettler FP-52 instrument. in the Fourier transform (FT) mode without lock.System control, data acquisitions, and data managements were performed by an Aspect-2000 microcomputer.Instrumental settings: spectral width 50 kHz (1025 ppm), 8 K data points, pulse width 33 µs, acquisition time 20 ms, preacquisition delay 5 µs, 150000 -300000 scans, sample spinning 30 Hz.An even number (12-28) left-shifts (LS) were applied to the FID signal; the latter was zero-filled to 8 K words and exponentially multiplied with 100-Hz linebroadening factor (LB) before being subjected to the FT.The chemical shifts δ( 17 O), measured in 0.5 M acetonitrile solution at 40°C at natural isotopic abundance, are reported relative to δ( 17 O)(H 2 O) (= 0.0 ppm); dioxane (δ( 17 O) = 0.0 ppm) was used as an external standard; downfield shifts are positive.The general reproducibility of chemical shift values is ca.+ 1 ppm ( + 0.2 ppm within the same series).
O shift values of the carbonyl O atoms of enamino-diesters with N-alkyl substituents (1b-1g) are very similar.A phenyl group at the N atom (1h) causes a deshielding (ca.8 ppm) of the two carbonyl O atoms.Acceptable correlations between the carbonyl O-1 and O-3 in enamino-diesters (1b-1h) are obtained with those of the E-and Z-forms of the corresponding MeC(O)CH=CHNHR (2) [13a] [Eqns (1) and (2) respectively].