Ring-expansion transformation

An efficient ring-expansion transformation has also been described under solvent-free conditions (Scheme 6.26) [92]. This microwave procedure is superior to the same reactions conducted in traditional methanolic solution. 

Oxidation reactions on the sulfur atom of penicillins remain the most important reactivity of S-1 encountered in the literature. Penam sulfoxides and sulfones are indeed important compounds as they confer to the skeleton an ease of thiazolidine ring opening by weakening the C(5)-S(l) and S(l)-C(2) bonds (see Section 2.03.5.9) <2004CHE816>. In particular, the former constitute key intermediates in ring-expansion transformations from penams to cephems (see Section 2.03.5.9), while the latter have a special biological interest as /3-lactamase inhibitors (e.g., sulbactam, tazobactam see Sections 2.03.1, 2.03.5.2, and 2.03.12.4). Since CHEC-II(1996) covers all the aspects of these oxidation reactions on the S-1 atom of penicillins, this section focuses on the most relevant recent papers. As there is no particular change in the subject, only a few articles have been released since 1995. 

The diazomethane ring expansion, when applied to (+)-173, led to the formation of 175, which was converted via ketone (-)-176 into (-)-homobasketane (143) (Ci). A similar sequence of conversions, including a second diazomethane ring expansion, transformed (-)-176 to (-)-3,10-dehydroditwistane (C2) (144). Catalytic hydrogenolysis cleaved the strained central bonds of (-)-143 and (-)-144 furnishing (-)-methanotwistane (136) (Ci) and (-)-ditwistane (137), (C2) respectively (149). 

An efficient ring expansion transformation using aluiiiina supported AgBF has been described by Villemin and Labiad (1992) under solventless conditions. This solvent-free microwave protocol is superior to the reactions conducted in conventional methanolic solution. 

Trimethylpyrazole (336) adds dichlorocarbene generated under basic conditions (CHCla-EtONa) to give 10% of 4-dichloromethyl-3,4,5-trimethylisopyrazole (337 Scheme 28) (bromine also transforms (336) into an isopyrazole (312) Section 4.04.2.1.4(v)). Treatment with sodium ethoxide results in ring expansion of (337) into an ethoxymethyl-pyridazine (338) (B-76MI40402). 

The most useful reactions combine carbanion nucleophiles with activated aziridines. For example, the ring expansion which occurs on treatment of aziridines (219) with malonate salts typifies the heterocyclic synthesis possible. The conversion is quite general since many analogous transformations have been observed in which different carbanion stabilizing substituents were employed (73S546). 

In most cases, the cleavage of a carbon-carbon bond causes rearrangements of the carbon skeleton Ring contraction, ring expansion, and alkyl group migration are observed under different conditions These transformations proceed in most cases in the presence of catalysts at elevated temperatures Examples where only temperature causes rearrangements will be discussed m the next section... 

ArNSNSAr from a mixture of ArNSNAr and Ar SNSNSAr. The limited data available indicate the occurrence of transformations analogous to the ring expansion or ring contraction processes observed for S-N ring systems. 

Adducts derived from cyclopropyl-TMM reactions are versatile synthetic intermediates. Alkylidenecyclopropanes have been proven useful in further Pd-cata-lyzed transformations [4], On the other hand, vinylcyclopropanes can undergo smooth thermal ring-expansion to cyclopentenes. Thus, a total synthesis of 11-hy-droxyjasionone (27) was achieved with the cyclopropyl-TMM cycloaddition as the crucial step, and the thermal rearrangement of the initial adduct (28) as an entry to the bicyclo[6.3.0]undecyl compound (29), a key intermediate in the synthetic sequence (Scheme 2.9) [19]. 

The corresponding 4-(iodomethyl)-l,4-dihydropyridine undergoes rapid transformation to the 4//-azepine 2 under milder conditions (e.g., on a silica gel column or on a TLC plate).120 4//-Azepines are also formed by the ring expansion of 4-(chloromethyl)-l,4-dihydropyridines with a variety of other nucleophiles, but, in general, are not isolated since they readily suffer addition of the nucleophile to yield 4-substituted 4,5-dihydro-l//-azepines.120 121-132... 

Ring expansions of vinylaziridines with carbon monoxide are a useful transformation with which to produce lactams. I11 1974, a light-induced reaction between vinylaziridine 256 and Fe(CO)5, forming the 7t-allyltricarbonyliron lactam complex... 

For the synthesis of the complex natural product, the terminus six-membered ketone 55 had to be transformed into an oxepane ring. For this necessary transformation, the authors were attracted by the single-carbon homologation of a pyr-anone (a sort of ring-expansion) because, in prindple, it could be used in an iterative sense at any stage of the 6-endo cydization in their poly-TH P-based synthetic approach for the synthesis of trans-fused 6,7,6 (THP-oxepane-THP) and 6,7,7 (THP-oxepane-oxepane) ring systems [28]. Treatment of ketone 55 with TMSCHN2... 

In a formal synthesis of fasicularin, the critical spirocyclic ketone intermediate 183 was obtained by use of the rearrangement reaction of the silyloxy epoxide 182, derived from the unsaturated alcohol 180. Alkene 180 was epoxidized with DMDO to produce epoxy alcohol 181 as a single diastereoisomer, which was transformed into the trimethyl silyl ether derivative 182. Treatment of 182 with HCU resulted in smooth ring-expansion to produce spiro compound 183, which was subsequently elaborated to the desired natural product (Scheme 8.46) [88]. 

In a series of papers culminating in the report of a total synthesis of hemibrevetoxin B, Nakata and co-workers utilised a zinc catalysed ring expansion of poly-substituted tetrahydropyrans, exemplified by the transformation of 34 to 35 (Scheme 7) <96TL213, 96TL217, 96TL6365>. 

The reaction of crotonaldehyde and methyl vinyl ketone with thiophenol in the presence of anhydrous hydrogen chloride effects conjugate addition of thiophenol as well as acetal formation. The resulting j3-phenylthio thioacetals are converted to 1-phenylthio-and 2-phenylthio-1,3-butadiene, respectively, upon reaction with 2 equivalents of copper(I) trifluoromethanesulfonate (Table I). The copper(I)-induced heterolysis of carbon-sulfur bonds has also been used to effect pinacol-type rearrangements of bis(phenyl-thio)methyl carbinols. Thus the addition of bis(phenyl-thio)methyllithium to ketones and aldehydes followed by copper(I)-induced rearrangement results in a one-carbon ring expansion or chain-insertion transformation which gives a-phenylthio ketones. Monothioketals of 1,4-diketones are cyclized to 2,5-disubstituted furans by the action of copper(I) trifluoromethanesulfonate. ... 

Related redox transformations allow the conversion of ynals to a,P-nnsaturated esters [33], as well as the ring expansion of formyl P-lactams [34], oxacycloalkane-2-carboxaldehydes [35], and 2-acyl-1-formyIcyclopropanes [36], Farther developments allow the synthesis of amides from a range of a-fnnctionalised compounds, but require an additive (imidazole, HO At or HOBt) for efficient amidation [37],... 

This chapter begins by classifying the combinations of oxidation/reduction processes with subsequent cationic transformations, though to date the details of only two examples have been published. The first example comprises an asymmetric epoxidation/ring expansion domino process of aryl-substituted cyclopropyl-idenes (e. g., 7-1) to provide chiral cyclobutanones 7-3 via 7-2, which was first described by Fukumoto and coworkers (Scheme 7.1) [2]. 

Ozonolysis of alkene 446 in the presence of acetaldehyde afforded diketone 448 through the intermediacy of 447. Ring expansion through Beckmann rearrangement took place when bis-oxime 449 was mesylated and warmed in aqueous tetrahydrofuran (THF). The bis-lactam so formed gave piperidinediol 450 on reduction with lithium aluminium hydride, and this compound was transformed into ( )-sparteine by treatment with triphenylphosphine, CCI4, and triethylamine (Scheme 105) <20050BC1557>. 

Diphenylcyclopropene thione (156) was prepared11S-12°) from 3,3-dichloro-1,2-diphenyl cyclopropene (154) by reaction with thioacetic acid, since transformation of the carbonyl function of diphenyl cyclopropenone with P4S10121 was complicated by ring expansion to the trithione 155122 In a useful recent thioketone synthesis123) 156 was obtained directly from diphenyl cyclopropenone in a quantitative yield by simultaneous treatment with HC1 and H2S. 

Figure 5.35 ABH reacts with aldehyde-containing compounds through its hydrazide end to form hydrazone linkages. Glycoconjugates may be labeled by this reaction after oxidation with sodium periodate to form aldehyde groups. Subsequent photoactivation with UV light causes transformation of the phenyl azide to a nitrene. The nitrene undergoes rapid ring expansion to a dehydroazepine that can couple to nucleophiles, such as amines.

Additionally, the authors chose 3-chloropropionyl chloride as the immobilized building block in order to carry out a ring-expansion approach, which led to the generation of a 14-member library of thioxotetrahydropyrimidinones [85, 86], The initially prepared polymer-bound chloropropionyl ester was efficiently transformed into the corresponding diamines by transamination utilizing several primary amines. These diamine intermediates could also be obtained by treatment of the pure polymeric support with acryloyl chloride and subsequent addition of the appropriate amines (Scheme 7.74). 

A series of experiments on ring expansions under photochemical conditions has been published by Wentrup et al. <1996CC813, 1998J(P1)2247, 20040BC246, 20040BC1227>. Schematic representation of these transformations is shown in Seheme 6. 

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