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Intermediate fragment 3 synthesis

These methodologies have been reviewed (22). In both methods, synthesis involves assembly of protected peptide chains, deprotection, purification, and characterization. However, the soHd-phase method, pioneered by Merrifield, dominates the field of peptide chemistry (23). In SPPS, the C-terminal amino acid of the desired peptide is attached to a polymeric soHd support. The addition of amino acids (qv) requires a number of relatively simple steps that are easily automated. Therefore, SPPS contains a number of advantages compared to the solution approach, including fewer solubiUty problems, use of less specialized chemistry, potential for automation, and requirement of relatively less skilled operators (22). Additionally, intermediates are not isolated and purified, and therefore the steps can be carried out more rapidly. Moreover, the SPPS method has been shown to proceed without racemization, whereas in fragment synthesis there is always a potential for racemization. Solution synthesis provides peptides of relatively higher purity however, the addition of hplc methodologies allows for pure peptide products from SPPS as well. [Pg.200]

Pursuing the synthesis of angelmicin B, Mootoo prepared the tricyclic intermediate fragment 93 from D-xylose derivative 90 (Fig. 31).46... [Pg.241]

After the sulfation of alcohols and phenols was reported to proceed efficiently with DCC/ H2S04, 75 76 Wieland et al. 81 applied this procedure for the sulfation of the tyrosine residue in D-Tyr6-a//-D-retro-antamanide. This contains no reactive group in addition to the phenolic group, and the desired product was obtained in satisfactory yields. Despite these promising initial results, this type of sulfation reaction has been adopted only sporadically, e.g. for sulfation of the CCK-8 derivative Boc-Asp(OtBu)-Tyr-Met-Gly-Trp(For)-Met-Asp-(OtBu)-Phe-NH2 with 70% yield1 2 or for the preparation of an intermediate fragment in the synthesis of CCK-related peptides (Scheme 3). 83 ... [Pg.432]

Scheme 3 Sulfation of a Suitable Protected Tetrapeptide with Dicyclohexylcarbodiimide/Sulfuric Acid as an Intermediate Fragment in the Synthesis of CCK-8183 ... Scheme 3 Sulfation of a Suitable Protected Tetrapeptide with Dicyclohexylcarbodiimide/Sulfuric Acid as an Intermediate Fragment in the Synthesis of CCK-8183 ...
The 1-deoxyosone represents the most elusive of the three intermediates, but also the most important from the standpoint of food flavor and aroma production. A large number of methyl-containing furanones, pyrones and related compounds are found in food preparations that are consistent with having been formed from this intermediate. A synthesis of this material was reported some years ago by Isuzu, et al. (10), but the yields were very low and the product was not well characterized. The workers reported that the compound gave one of the two reported isomers of "saccharinic acid", the expected degradation product in alkaline solution, along with fragmentation products. This material will be addressed (vide infra) in a later section. [Pg.210]

Another type of rearrangement ensues if the ATb-oxide (219) is treated with a nucleophile. This reaction can be applied to the partial synthesis of bisindole alkaloids (q.v.), but in most cases a by-product is obtained. In the simple example in which the nucleophile is acetate, the product obtained is the pentacyclic compound (222), in which the intermediate fragmentation product has cyclized on to Aa. Analogous compounds can also be obtained starting with dihydrocatharanthine or coronaridine. ... [Pg.233]

Crabbe and Greene employed a similar approach in their synthesis of a Corey intermediate. The synthesis, depicted in Scheme 1.33, began by construction of cuprate 166 via a slightly different route. 3-Methyl cyclohexenone (180) was epoxidized and subjected to Eschenmoser-Tanabe fragmentation to give the acetylenic ketone 181. Reduction of ketone 181 to the alcohol and protection afforded 164, which had been previously converted to cuprate 166 by Corey. [Pg.32]

Meyers and co-workers" completed the first synthesis of (—)-griseoviridin 1184. In this case, the authors envisioned an unprecedented olefin metathesis reaction of 1269 would construct the macrocycle (Scheme 1.325). Amide bond disconnection of 1269 then led to the key intermediate fragments, an oxazole diene moiety 1270, and the sulfur-containing nine-membered ring lactone 1271. [Pg.282]

SchemeS.17 Intermediates for synthesis of a tautomycin fragment. Conditions for reactions with LiCHClj and replacement of chloride for conversion of 80 into 84 are similar to those outlined in Schemes 8.1 and 8.3. SchemeS.17 Intermediates for synthesis of a tautomycin fragment. Conditions for reactions with LiCHClj and replacement of chloride for conversion of 80 into 84 are similar to those outlined in Schemes 8.1 and 8.3.
The loss of one or two (or sometimes more) ring members from heterocyclics, concerted with or followed by formation of a new ring, is a highly versatile method for heterocyclic synthesis. Loss of N2, CO, CO2, S, SO, SO2, H2C=CH2, etc. is common. Diradical or dipolar intermediates are often encountered, and valence isomerization before the actual fragmentation is characteristic for some systems. [Pg.43]

Of these, the 2(5//)-furanones 2 are perhaps the compounds having the most interesting synthetic and biological importance. The synthesis and properties of compounds 2 have recently attracted much attention. The 2(5//)-furanone fragment is present in a wide variety of biologically active natural products (84MI1) moreover these furanones possess utility as valuable synthetic intermediates (86T3715). [Pg.106]

As expected, the yields of catenanes by this approach are low, which is why improved methods for the preparation of such compounds have been developed. The acyloins are often only intermediate products in a multistep synthesis. For example they can be further transformed into olefins by application of the Corey-Winter fragmentation. [Pg.3]

Scheme 6a presents the synthesis of fragment 15. Intermediate 15 harbors two vicinal stereogenic centers, and is assembled in a very straightforward manner through the use of asymmetric aldol methodology. Treatment of the boron enolate derived from 21 with 3-[(p-methoxybenzyl)oxy]propanal (22) affords crystalline syn aldol adduct 34 in 87 % yield as a single diastereomer. Transamination to the A-methoxy-A-methylamide,20 followed by silylation of the secondary hydroxyl group at C-19 with triethylsilyl chloride, provides intermediate 15 in 91 % yield. [Pg.494]


See other pages where Intermediate fragment 3 synthesis is mentioned: [Pg.107]    [Pg.44]    [Pg.215]    [Pg.11]    [Pg.183]    [Pg.262]    [Pg.321]    [Pg.399]    [Pg.16]    [Pg.18]    [Pg.383]    [Pg.12]    [Pg.124]    [Pg.185]    [Pg.185]    [Pg.191]    [Pg.186]    [Pg.74]    [Pg.89]    [Pg.244]    [Pg.115]    [Pg.179]    [Pg.227]    [Pg.257]    [Pg.85]    [Pg.320]    [Pg.102]    [Pg.126]    [Pg.478]    [Pg.483]    [Pg.281]    [Pg.308]    [Pg.22]   


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