Aldehydes conformation

Thiophene-2-carbaldehyde, 3-bromo-synthesis, 4, 81 Thiophenecarbaldehydes benzothiophene synthesis from, 4, 906 reactions, 4, 807 synthesis, 4, 148 Wittig reactions, 4, 807 Thiophene-2-carb aldehydes bromination, 4, 753 conformation, 4, 33 halogenation, 4, 753 reactions, 4, 72-73 reactivity, 4, 72-73 reduction, 4, 776 Thiophene-3-carb aldehydes conformation, 4, 33 reactivity, 4, 72... 

Asymmetric Crotylboration . Reagents for crotylboration are prepared from 2,5-dimethyl-S-methoxyborolane (eq 5) by addition of (Z)- or ( )-crotylpotassium under standard conditions. Reactions with representative achiral aldehydes are 93-96% diastereoselective and 86-97% enantioselective for the major diastereomer (eqs eq 12 and eq 13). Results with chiral aldehydes conform to the rule of double asymmetric synthesis. ... 

These woikers have also examined asymmetric induction in the process in some detail. For instance, cycloaddition of sugar aldehyde (167) occurred to afford only adduct (169) at high pressure (equation 80). It was suggested that the Diels-Alder reaction proceeds via diene attack on the aldehyde conformation shown in (168) from the least congested face. Other chiral aldehydes have been investigated by this group, as has the e ect of lanthanide catalysts upon the extent of asymmetric induction. Summaries of this work have recently been published. ... 

The addition of organometallics to aldehyde substrates incapable of populating intramolecularly chelated conformations preferentially results in a Cram selective process. This result is most easily rationalized by considering an aldehyde conformation that maintains the incoming organometallic reagent and the largest substituent of the aldehyde in an antiperiplanar disposition, as represented by (5). ... 

The steps in the oxidation subsequent to the formation of aldehyde conform to Bones theory in that the aldehyde oxidizes further to formic acid, decomposes into carbon monoxide and water, or oxidizes to carbonic acid which decomposes to carbon dioxide and water. 

In substitutive lUPAC nomen clature cyanohydrins are named as hydroxy deriva tives of nitriles Because ni trile nomenclature will not be discussed until Section 20 1 we will refer to cyanohydrins as derivatives of the parent aldehyde or ketone as shown in the ex amples This conforms to the practice of most chemists... 

The aldotetroses are the four stereoisomers of 2 3 4 trihydroxybutanal Fischer pro jections are constructed by orienting the molecule m an eclipsed conformation with the aldehyde group at the top The four carbon atoms define the mam chain of the Fischer projection and are arranged vertically Horizontal bonds are directed outward vertical bonds back... 

Iron Porphyrins. Porphyrias (15—17) are aromatic cycHc compouads that coasist of four pyrrole units linked at the a-positions by methine carbons. The extended TT-systems of these compounds give rise to intense absorption bands in the uv/vis region of the spectmm. The most intense absorption, which is called the Soret band, falls neat 400 nm and has 10. The TT-system is also responsible for the notable ring current effect observed in H-nmr spectra, the preference for planar conformations, the prevalence of electrophilic substitution reactions, and the redox chemistry of these compounds. Porphyrins obtained from natural sources have a variety of peripheral substituents and substitution patterns. Two important types of synthetic porphyrins are the meso-tetraaryl porphyrins, such as 5,10,15,20-tetraphenylporphine [917-23-7] (H2(TPP)) (7) and P-octaalkylporphyrins, such as 2,3,7,8,12,13,17,18-octaethylporphine [2683-82-1] (H2(OEP)) (8). Both types can be prepared by condensation of pyrroles and aldehydes (qv). 

Dextrose in solution or in soHd form exists in the pyranose stmctural conformation. In solution, a small amount of the open-chain aldehyde form exists in equiUbrium with the cycHc stmctures (1) and (2). The open-chain form is responsible for the reducing properties of dextrose. 

In most cases the frequencies of substituent groups attached to these heterocycles differ little from those observed for their benzenoid counterparts. The only notable exception is the spectral behaviour of carbonyl groups attached to position 2. These have attracted much attention as they frequently give rise to doublets, and occasionally multiplets. In the case of (34), (35) (76JCS(P2)l) and (36) (76JCS(P2)597) the doublets arise from the presence of two conformers (cf. Section 3.01.5.2), whereas for the aldehydes (37) the doublets are... 

The treatment of 3-benzoyl-2-phenylisoxazolidine with strong base generated an aldehyde and a ketimine <74X1121). Under these conditions dimethyl 2-a-methoxyisoxazolidine-3,3-dicarboxylic acid (186) produced isoxazoline-2-carboxylic acid. Reaction of the monomethyl amide (187) gave the corresponding isoxazoline-2-carboxamide (Scheme 60). CD was used in the conformational studies <79X213). 

According to this concept, the aldol condensation normally occurs through a chairlike transition state. It is further assumed that the stmcture of this transition state is sufficiently similar to that of chair cyclohexane to allow the conformational concepts developed for cyclohexane derivatives to be applied. Thus, in the example above, the reacting aldehyde is shown with R rather than H in the equatorial-like position. The differences in stability of the various transition states, and therefore the product ratios, are governed by the steric interactions between substituents. 

This chapter is divided into two paits. The first, and major, portion is devoted to caibohydrate structure. You will see how the principles of stereochemistry and conformational analysis combine to aid our understanding of this complex subject. The remainder of the chapter describes chemical reactions of caibohydrates. Most of these reactions aie simply extensions of what you have aheady leained concerning alcohols, aldehydes, ketones, and acetals. 

One interesting phenomenon was the effect of the boron substituent on enantioselectivity. The stereochemistry of the reaction of a-substituted a,/ -unsatu-rated aldehydes was completely independent of the steric features of the boron substituents, probably because of a preference for the s-trans conformation in the transition state in all cases. On the other hand, the stereochemistry of the reaction of cyclopentadiene with a-unsubstituted a,/ -unsaturated aldehydes was dramatically reversed on altering the structure of the boron substituents, because the stable conformation changed from s-cis to s-trans, resulting in production of the opposite enantiomer. It should be noted that selective cycloadditions of a-unsubsti-tuted a,/ -unsaturated aldehydes are rarer than those of a-substituted a,/ -unsatu-... 

The structure of the complex of (S)-tryptophan-derived oxazaborolidine 4 and methacrolein has been investigated in detail by use of H, B and NMR [6b. The proximity of the coordinated aldehyde and indole subunit in the complex is suggested by the appearance of a bright orange color at 210 K, caused by formation of a charge-transfer complex between the 7t-donor indole ring and the acceptor aldehyde. The intermediate is thought to be as shown in Fig. 1.2, in which the s-cis conformer is the reactive one. 

C, 92% ee at -20 °C, 88% ee at 0°C in the reaction of acrolein and cyclopen-tadiene). This is unusual for metal-catalyzed asymmetric reactions, with only few similar examples. The titanium catalyst 10 acts as a suitable chiral template for the conformational fixing of a,/ -unsaturated aldehydes, thereby enabling efficient enantioface recognition, irrespective of temperature. 

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