Synthesis 9 Synthetic organic chemistry

Organic chemistry and instrumentai anaiysis Synthesis 9 Synthetic organic chemistry... 

An ability to form carbon-carbon bonds is fundamental to organic synthesis The addition of Grignard reagents to aldehydes and ketones is one of the most frequently used reactions m synthetic organic chemistry Not only does it permit the extension of carbon chains but because the product is an alcohol a wide variety of subsequent func tional group transformations is possible... 

S.J. Shuttleworth, S.M. Allin and P.K. Sharma, Functionalised Polymers - Recent Developments and New Applications in Synthetic Organic Chemistry, Synthesis 1217-1239 7997. 

Anions of (3-keto esters are said to be synthetically equivalent to the enolates of ketones. The anion of ethyl acetoacetate is synthetically equivalent to the enolate of acetone, for example. The use of synthetically equivalent groups is a common tactic in synthetic organic chemistry. One of the skills that characterize the most creative practitioners of organic synthesis is an ability to recognize situations in which otherwise difficult transfonnations can be achieved through the use of synthetically equivalent reagents. 

In addition to its uses in photography and medicine, iodine and its compounds have been much exploited in volumetric analysis (iodometry and iodimetry, p. 864). Organoiodine compounds have also played a notable part in the development of synthetic organic chemistry, being the first compounds used in A. W. von Hofmann s alkylation of amines (1850), A. W. Williamson s synthesis of ethers (1851), A. Wurtz s coupling reactions (1855) and V. Grignard s reagents (1900). 

The [ 2 + 4]-cycloaddition reaction of aldehydes and ketones with 1,3-dienes is a well-established synthetic procedure for the preparation of dihydropyrans which are attractive substrates for the synthesis of carbohydrates and other natural products [2]. Carbonyl compounds are usually of limited reactivity in cycloaddition reactions with dienes, because only electron-deficient carbonyl groups, as in glyoxy-lates, chloral, ketomalonate, 1,2,3-triketones, and related compounds, react with dienes which have electron-donating groups. The use of Lewis acids as catalysts for cycloaddition reactions of carbonyl compounds has, however, led to a new era for this class of reactions in synthetic organic chemistry. In particular, the application of chiral Lewis acid catalysts has provided new opportunities for enantioselec-tive cycloadditions of carbonyl compounds. 

The total syntheses of penicillin and cephalosporin represent elegant tours de force that demonstrated once again the power of synthetic organic chemistry. These syntheses, however, had little effect on the course of drug development in the respective fields, since they failed to provide access to analogs that could not be prepared by modification of either the side chains or, as in the case of more recent work, modification of 6-APA and 7-ACA themselves. In order to have an impact on drug development, a total synthesis must provide means for preparing... 

Although solid-phase synthesis revolutionized synthetic organic chemistry and triggered the development of combinatorial chemistry, it still exhibits several shortcomings originating from the nature of heterogeneous conditions, such as lower reaction rates and difficulties in reaction monitoring. 

Reviews see (a) Wong, C.-H. Whitesides, G. M. Enzymes in Synthetic Organic Chemistry, Pergamon Oxford, 1994. (b) Bornscheuer, U. T. Kazlauskas, R. J. Hydrolases in Organic Synthesis Regio- and Stereoselective Biotransformations Wiley Chichester, 1999. 

It is logical to discover Art more frequently at the frontier of science, where most innovation and creativity takes place. For organic synthesis, pharmaceutical research is on one of the frontiers. In pharmaceutical research laboratories, synthetic organic chemistry plays a major role in two departments, namely Medicinal... 

Diels-Alder reactions are one of the most fundamental and useful reactions in synthetic organic chemistry. Various dienes and dienophiles have been employed for this useful reaction.1 Nitroalkenes take part in a host of Diels-Alder reactions in various ways, as outlined in Scheme 8.1. Various substituted nitroalkenes and dienes have been employed for this reaction without any substantial improvement in the original discovery of Alder and coworkers.2 Nitrodienes can also serve as 4ti-components for reverse electron demand in Diels-Alder reactions. Because the nitro group is converted into various functional groups, as discussed in Chapters 6 and 7, the Diels-Alder reaction of nitroalkenes has been frequently used in synthesis of complex natural products. Recently, Denmark and coworkers have developed [4+2] cycloaddition using nitroalkenes as heterodienes it provides an excellent method for the preparation of heterocyclic compounds, including pyrrolizidine alkaloids. This is discussed in Section 8.3. 

The total synthesis of calicheamicin y/ by the research group of K. C. Nicolaou (The Scripps Research Institute, University of California, San Diego) represents a stunning achievement in synthetic organic chemistry. 

It will not be lost on the reader that, while PHOTOFRIN and compounds (3), (5) and (6) contain no metal, they would be expected to be excellent ligands. Are metal complexes useful as PDT photosensitizers Indeed, they are, and may be expected in the future to become more important. The rest of this chapter is about this aspect it will emphasize metal complex formation and properties in relation to PDT. The synthesis of ligands, while of crucial importance, will not usually be treated here in detail, but leading references to relevant synthetic organic chemistry will be provided. The synthesis of porphyrins and related compounds has been considered in several monographs and reviews (porphyrins,46 47 phthalocyanines48). 

Fig. 1.1 Publications on microwave-assisted organic synthesis (1986-2004). Cray graphs Number of articles involving MAOS for seven selected synthetic organic chemistry journals ( J. Org. Chem, Org. Lett., Tetrahedron, Tetrahedron Lett., Synth. Commun., Synthesis, Synlett ...

B. M. Glass, A. P. Combs, Rapid Parallel Synthesis Utilizing Microwave Irradiation Article E0027, Fifth International Electronic Conference on Synthetic Organic Chemistry" (Eds. C. O. Kappe, P. Merino, A. Marzinzik, H. Wennemers, T. Wirth, J. J. Vanden Eynde, S.-K. Lin), CD-ROM edition,... 

Shuttleworth SJ, Allin SM, Sharma PK (1997) Functionalised polymers recent developments and new applications in synthetic organic chemistry. Synthesis 1217-1239... 

Enyne metathesis is unique and interesting in synthetic organic chemistry. Since it is difficult to control intermolecular enyne metathesis, this reaction is used as intramolecular enyne metathesis. There are two types of enyne metathesis one is caused by [2+2] cycloaddition of a multiple bond and transition metal carbene complex, and the other is an oxidative cyclization reaction caused by low-valent transition metals. In these cases, the alkyli-dene part migrates from alkene to alkyne carbon. Thus, this reaction is called an alkylidene migration reaction or a skeletal reorganization reaction. Many cyclized products having a diene moiety were obtained using intramolecular enyne metathesis. Very recently, intermolecular enyne metathesis has been developed between alkyne and ethylene as novel diene synthesis. 

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