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Selective protonation

Rovis and co-workers further extended the scope of the reaction to the enantio-and diastereoselective cyclisation of a,P-disubstituted Michael acceptors 137. The high diastereoselectivity of the process relies on selective protonation of the resnltant enolate after conjugate addition. It was found that HMDS (formed dnring deprotonation of the triazolium salt pre-catalyst) was detrimental to the... [Pg.278]

The determination of these two coupling constants can be carried out using a selective proton decoupling experiment. The middle trace in Fig. 18 shows the results of such an experiment. [Pg.27]

Unsymmetrically substituted perylene pigments are a comparatively recent novelty. Selective protonation of the tetra sodium salt of perylene tetracarboxylic acid affords the monosodium salt of perylene tetracarboxylic monoanhydride in high yield. Stepwise reaction with amines produces unsymmetrically substituted perylene pigments [2],... [Pg.475]

The enantioselective synthesis of an allenic ester using chiral proton sources was performed by dynamic kinetic protonation of racemic allenylsamarium(III) species 237 and 238, which were derived from propargylic phosphate 236 by the metalation (Scheme 4.61) [97]. Protonation with (R,R)-(+)-hydrobcnzoin and R-(-)-pantolactone provided an allenic ester 239 with high enantiomeric purity. The selective protonation with (R,R)-(+)-hydrobenzoin giving R-(-)-allcnic ester 239 is in agreement with the... [Pg.169]

Isotope editing means selecting protons which are directly bound to an NMR-active heteronucleus (xH-13C, H-15N). [Pg.374]

The most straightforward isotope-editing method for selecting protons bound to a heteronucleus and suppressing all others is the simple acquisition of a spectrum with an indirect heteronuclear dimension (in the literature the term isotope editing is often used as a synonym for these techniques). This can be accomplished by a simple 2D HMQC or HSQC shift correlation, or a more elaborate 3D technique including an additional NOESY or TOCSY step (3D X-edited NOESY/TOCSY etc.), or even 4D experiments with a second heteronuclear shift dimension [13, 14]. [Pg.379]

Selective Protonation of Methyl Croups in 2H-Labeled Proteins... [Pg.507]

The reduction of 2-oxoacids bound to different chiral auxiliaries gave the 2-hydroxyacid derivatives in a 64 to 76% yield and 42 to 86% de depending on solvent, proton donor, supporting electrolyte, temperature, and substituent R in the oxoacid. The results are in accordance with an ECE reduction of the 2-oxoamide to an enolate anion, which subsequently undergoes a face-selective protonation to the hydroxy acid [346, 347]. [Pg.437]

Table 2.6. Selected proton affinities and gas phase basicities [28,100,110]... Table 2.6. Selected proton affinities and gas phase basicities [28,100,110]...
Protonated and cationized species are the most commonly detected ions using the ES process if a positive ionization mode is selected. Protonation is a result of the addition of proton(s) to a neutral molecule for every proton added, a net charge of +1 will result. Similarly, canonization is due to the addition of cation(s) to a neutral molecule. Detection of cationized ions can be useful in the determination of molecular mass of unknown analytes.If ESI is operated under negative ion mode, deprotonated ions will usually be the most dominant ions. Eor either operation mode, solvent adducts of the protonated/deprotonated ions are frequently detected in ESI/MS mass spectra. [Pg.545]

This effect is the result of selective protonation of the hydride ligand of 3t because, according to Papich et al., there is no plausible reason for metal protonation to be faster for 3t than 3c. ... [Pg.204]

We have implemented the principle of multiple selective excitation (pulse sequence II in fig. 1) thereby replacing the low-power CW irradiation in the preparation period of the basic ID experiment by a series of selective 180° pulses. The whole series of selective pulses at frequencies /i, /2, , / is applied for several times in the NOE build-up period to achieve sequential saturation of the selected protons. Compared with the basic heteronuclear ID experiment, in this new variant the sensitivity is improved by the combined application of sequential, selective pulses and the more efficient data accumulation scheme. Quantitation of NOEs is no longer straightforward since neither pure steady-state nor pure transient effects are measured and since cross-relaxation in a multi-spin system after perturbation of a single proton (as in the basic experiment) or of several protons (as in the proposed variant) differs. These attributes make this modified experiment most suitable for the qualitative recognition of heteronuclear dipole-dipole interactions rather than for a quantitative evaluation of the corresponding effects. [Pg.32]

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See also in sourсe #XX -- [ Pg.204 ]



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