LOW-LEVEL LONG-RANGE H-1-N-15 HETERONUCLEAR SHIFT CORRELATION AT NATURAL-ABUNDANCE USING SUBMICRO NMR TECHNIQUES

Gradient inverse-detected NMR methods have provided experimental acces s to long-range H-1-N-15 heteronuclear shift correlation data at natur al abundance. When used in conjunction with newly developed submicro-i nverse-detection gradient (SMIDG) NMR probes, sample size requirements are dramatically reduced. Long-range H-1-N-15 GHMBC data are shown fo r a 1 mg sample (similar to 3 mu mol, 0.11 M) of the alkaloid strychni ne (1) dissolved in 30 mu L of CDCl3. All of the correlations observed in previous studies using samples in the range of 20-40 mg in 5 mm NM R probes were observed in data acquired overnight on a 1 mg sample in a 1.7 mm SMIDG NMR probe. A previously unreported long-range correlati on, (3)J(H-15a-N(19)), was Observed in data recorded over a weekend fo r the 1 mg sample. Data recorded over a weekend using a 1 mu mol (334 mu g) sample of strychnine (1) in 30 mu L of CDCl3 contained the major ity of the responses from the 1 mg sample. The practical limit of dete ction for long-range H-1-N-15 heteronuclear shift correlation data at natural abundance would appear to be similar to 1 mu mol with data acq uisition over a weekend or longer using present submicro-NMR probe tec hnology.