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Ring lactones

No 0-allylation is observed in formation of the six-membered ring compound 79 by intramolecular allylation of the /3-keto ester 78(15,57]. Intramolecular allylation is useful for lactone fonnation. On the other hand, exclusive formation of the eight-membered ring lactone 81 from 80 may be in part derived from the preference for the nucleophile to attack the less substituted terminus of the allyl system[58]. [Pg.302]

The reaction of vinyloxiranes with malonate proceeds regio- and stereose-lectively. The reaction has been utilized for the introduction of a 15-hydroxy group in a steroid related to oogoniol (265)(156]. The oxirane 264 is the J-form and the attack of Pd(0) takes place from the o-side by inversion. Then the nucleophile comes from the /i-side. Thus overall reaction is sT -StM2 type, in the intramolecular reaction, the stereochemical information is transmitted to the newly formed stereogenic center. Thus the formation of the six-membered ring lactone 267 from 266 proceeded with overall retention of the stereochemistry, and was employed to control the stereochemistry of C-15 in the prostaglandin 268[157]. The method has also been employed to create the butenolide... [Pg.325]

Cycloaddition of COj with the dimethyl-substituted methylenecyclopropane 75 proceeds smoothly above 100 °C under pressure, yielding the five-membered ring lactone 76. The regiocheraistry of this reaction is different from that of above-mentioned diphenyl-substituted methylenecyclopropanes 66 and 67[61], This allylic lactone 76 is another source of trimethylenemethane when it is treated with Pd(0) catalyst coordinated by dppe in refluxing toluene to generate 77, and its reaction with aldehydes or ketones affords the 3-methylenetetrahy-drofuran derivative 78 as expected for this intermediate. Also, the lactone 76 reacts with a, /3-unsaturated carbonyl compounds. The reaction of coumarin (79) with 76 to give the chroman-2-one derivative 80 is an example[62]. [Pg.522]

Many natural products are lactones and it is not unusual to find examples m which the ring size is rather large A few naturally occurring lactones are shown m Figure 19 8 The macrohde antibiotics of which erythromycin is one example are macrocychc (large ring) lactones The lactone ring of erythromycin is 14 membered... [Pg.815]

Lactones whose rings are three or four membered (a lactones and p lactones) are very reactive making their isolation difficult Special methods are normally required for the laboratory synthesis of small ring lactones as well as those that contain rings larger than SIX membered... [Pg.815]

Five-ring lactone corresponding open-chain esters 1780-1760 ... [Pg.739]

An interesting footnote to the general synthesis of macrocyclic crown ether-type esters is found in the work of Ors and Srinivasan . These workers used cinnamate esters and diesters as precursors to large ring lactones. Depending on orientation, either truxil-... [Pg.225]

The acid-catalyzed ring opening of the four-memhered ring lactone in... [Pg.218]

It will be recalled that lactone-derived enol triflate 102 was expected to serve as a substrate for a Murai coupling37 with the mixed cuprate reagent derived from iodo ortho ester 103 (see Scheme 17c). If successful, this C-C bond forming process would accomplish the introduction of the remaining carbon atoms needed for the annulation of the seven-membered D-ring lactone. [Pg.773]

With the polycyclic framework of the natural product intact, the completion of the total synthesis only requires a short sequence of reactions. At this juncture, the decision was made to address the problem of reconstituting the A-ring lactone. It was hoped that a selective oxidation of the A-ring allylic ether could be achieved. [Pg.783]

Both alcohols and phenols add to ketenes to give carboxylic esters (R2C=C= O+ROH —> R2CHC02R). This has been done intramolecularly (with the ketene end of the molecule generated and used in situ) to form medium- and large-ring lactones. In the presence of a strong acid, ketene reacts with aldehydes or ketones (in their enol forms) to give enol acetates. [Pg.997]

In the case of y,6-unsaturated acids, five-membered rings (y-lactones) are predominantly formed (as shown above note that Markovnikov s rale is followed), but six-membered and even four-membered lactones have also been made by this procedure. There is a gem- dimethyl effect that favors formation of 7-11 membered ring lactones by this procedure. ... [Pg.1043]

The anionic Rh(I) porphyrin [Rh(OEP) induced ring-opening reactions with 4- and 5-membered ring lactones to give organometallic products with the rhodium bonded to the alkoxide carbon rather than the carbonyl carbon. [Pg.306]

CO-Hydroxycarboxylic acids give, after silylation to bis(trimethylsilylated) intermediates and subsequent treatment with mild Lewis acdds, small- and large-ring lactones in high yields. Thus co-hydroxytridecanoic acid 332 (n= 12) affords, via 333 n= 12), at room temperature, the macrolide 334 in 89% yield [115]. The medium-sized 8- and 9-membered lactones are, however, not formed, only diolides. Likewise, trimethylsilyl 6-trimethylsilyloxyhexanoate 333 is readily lactonized in the presence of 4-trifluoro-... [Pg.70]

Good yields of large ring lactones are achieved by this method. [Pg.249]

Various electrophilic selenium reagents such as those described in Scheme 4.3 can be used. V-Phenylselenylphthalimide is an excellent reagent for this process and permits the formation of large ring lactones." The advantage of the reagent in this particular application is the low nucleophilicity of phthalimide, which does not compete with the remote internal nucleophile. The reaction of phenylselenenyl chloride or V-phenylselenenylphthalimide with unsaturated alcohols leads to formation of (3-phenylselenenyl ethers. [Pg.321]

A methylenation of cyclic carbonates such as 6/4-132 using dimethyltitanocene to give a ketene acetal, followed by a subsequent Claisen rearrangement, allowed the synthesis of medium-ring lactones such as 6/4-133 in good yields these are otherwise difficult to obtain. In this transformation, 6/4-133 is formed as a l l-mix-ture of the two atropisomers 6/4-133a and 6/4-133b (Scheme 6/4.33). The substrate... [Pg.478]

In the presence of proper substituents the primarily formed diradical rearranges to a more stable one, as by a ring opening reaction. In (2.7) medium ring lactones are synthesized by such a sequence 2U). [Pg.22]


See other pages where Ring lactones is mentioned: [Pg.739]    [Pg.739]    [Pg.739]    [Pg.1011]    [Pg.167]    [Pg.168]    [Pg.182]    [Pg.745]    [Pg.745]    [Pg.759]    [Pg.760]    [Pg.761]    [Pg.771]    [Pg.781]    [Pg.794]    [Pg.632]    [Pg.345]    [Pg.178]    [Pg.488]    [Pg.544]    [Pg.544]    [Pg.134]    [Pg.632]    [Pg.178]    [Pg.447]    [Pg.82]    [Pg.340]    [Pg.1008]    [Pg.1008]   
See also in sourсe #XX -- [ Pg.85 , Pg.286 , Pg.287 ]

See also in sourсe #XX -- [ Pg.237 ]




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17-Dehydrolimonoate A-ring lactone

5-Membered ring lactone

7-Lactone ring, conformational

Aluminum Alkoxides Mediated Ring Opening Polymerization of Lactones and Lactides

Anomalous lactone ring-opening

Coordinative Ring-Opening Polymerization of Lactones

Cyclobutanone ring 7-lactones

Erythromycins lactone ring

Five-membered lactone ring

Four-membered ring systems 5-lactones

Lactam/lactone rings

Lactone ring

Lactone ring azithromycin

Lactone ring cleavage

Lactone ring expansion

Lactone ring opening

Lactone ring polyketide-derived

Lactone ring-opening polymerization

Lactone ring-opening polymerization CALB)

Lactone, nucleophilic ring opening

Lactones aldol” ring cleavage

Lactones bridged-ring

Lactones enantioselective ring-opening

Lactones epoxide ring opening

Lactones five-membered ring

Lactones imidazole ring

Lactones large-ring

Lactones medium-sized ring

Lactones pyrimidine ring

Lactones regioselective ring-opening

Lactones ring expansion

Lactones ring-opening

Lactones ring-opening copolymerizations

Lactones ring-opening metathesis

Lactones ring-opening polymerizations

Lactones seven-membered ring

Lactones six-membered ring

Lactones, vinyl ring-opening and coupling reactions

Large-membered ring lactone

Large-ring lactone

Limonoic acid A-ring lactone

Macrocyclic lactone ring

Medium ring lactones

Medium- and large-ring lactones

Medium-sized ring lactone

Non-hydrolytic Anomalous Lactone Ring-Opening

P-Lactone ring

Reduction lactone ring opening

Ring construction of lactone triflate

Ring contraction lactones

Ring expansion, acid catalyzed lactones

Ring strain lactones

Ring substituted lactones

Ring unsubstituted lactones

Ring-Opening Polymerization of Bicyclic Lactones

Ring-Opening Polymerization of Cyclic Esters (Lactones)

Ring-expanded lactone

Ring-expanded lactone product

Ring-opening polymerization of lactones

Ring-opening polymerization ©Substituted lactones

Three-membered ring lactone

Y-Lactone ring

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