A Synthesis of Mycalamide B

Kocieński, Philip; Narquizian, Robert; Raubo, Piotr; Smith, Chris; Boyle, F. Thomas

doi:10.1055/s-1998-1803

Cited by 33 publications

(21 citation statements)

References 20 publications

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“…To retain ester groups so that they can be hydrolyzed to carboxylic groups, another method was used to connect ATRP initiation groups to the α‐carbon of the ester groups of polyacrylate backbone using lithium diisopropylamide (LDA) and α‐bromoisobutyryl bromide as shown in Scheme . Ester groups of polyacrylate backbone and C‐Br groups of ATRP initiation groups were supposed to be not affected during the reaction, as evidenced from the previous similar reaction shown below 49 …”

Section: Resultssupporting

confidence: 89%

A starlike amphiphilic graft copolymer with hydrophilic poly(acrylic acid) backbones and hydrophobic polystyrene side chains

Peng¹,

Feng²,

Lu³

et al. 2007

J. Polym. Sci. A Polym. Chem.

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A well‐defined starlike amphiphilic graft copolymer bearing hydrophilic poly(acrylic acid) backbones and hydrophobic polystyrene side chains was synthesized by successive atom transfer radical polymerization followed by the hydrolysis of poly‐(methoxymethyl acrylate) backbone. A grafting‐from strategy was employed for the synthesis of a graft copolymer with narrow molecular weight distribution. Hydrophobic polystyrene side chains were connected to the backbones through stable CC bonds. The poly(methoxymethyl acrylate) backbones can be easily hydrolyzed with HCl without affecting the hydrophobic polystyrene side chains. This kind of amphiphilic graft copolymer can form stable sphere micelles in water. The sizes of the micelles were dependent on the ionic strength and pH value. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 3687–3697, 2007

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Section: Resultssupporting

confidence: 89%

A starlike amphiphilic graft copolymer with hydrophilic poly(acrylic acid) backbones and hydrophobic polystyrene side chains

Peng¹,

Feng²,

Lu³

et al. 2007

J. Polym. Sci. A Polym. Chem.

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“…To this end, we relied heavily on the pioneering work of Kocienski and coworkers to synthesize the pyran core. Kocienski's synthesis of pederin, theopederin and the mycalamides all share the common pyran intermediate 8 7. We envisioned that the analogous protected alcohol 9 (and later 10 ) would dovetail nicely into our synthesis of 1 .…”

Section: Resultsmentioning

confidence: 97%

Progress toward the Total Synthesis of Psymberin/Irciniastatin A

Brown

Landaverry

Davies³

et al. 2009

J. Org. Chem.

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In this publication, we describe our synthesis of four key building blocks for the total synthesis of psymberin (1) and its C4 epimer (2). Despite early difficulties in processing material to the advanced intermediate stage, we have been successful in developing high-yielding syntheses for the pyran core, natural sidechain, 4-epi sidechain and aryl fragments of the molecule. Our findings from the optimization process are presented herein.

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“…We have already described a synthesis of pederin from the metallated dihydropyran 2 and the amide 7. 11 We now report the conversion of dihydropyranone 3 to amide 7 which, together with our much improved synthesis of metallated dihydropyran 2 15 represents a new formal total synthesis of pederin.…”

Section: A Formal Synthesis Of Pederinmentioning

confidence: 96%

“…[3][4][5][6][7] The potent antitumour and antiviral activities of the marine compounds has stimulated interest in their synthesis because they are only available in minute amounts from natural sources. Total syntheses have been reported for pederin itself, [8][9][10][11] mycalamides A [12][13][14] and B 14,15 , and onnamide A. 16 Progress towards theopederin derivatives has been recorded 17,18 but no total syntheses have yet appeared.…”

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confidence: 99%

A Synthesis of Theopederin D and a Formal Synthesis of Pederin

Kocieński¹,

Narquizian²,

Raubo³

et al. 1998

Synlett

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Theopederin D, a cytotoxic metabolite from a sponge of the genus Theonella, was synthesised in 14 steps (11.1% overall yield) from two advanced intermediates previously used in a synthesis of mycalamide B. A formal synthesis of pederin from similar intermediates is also reported.Pederin (1) was the first and simplest member of a family of secondary metabolites which comprises the mycalamides, onnamides and theopederins. Though pederin was isolated from an insect (Paederus fuscipes), 1,2 all the subsequent structures were isolated from sponges of the genus Mycale or Theonella. [3][4][5][6][7] The potent antitumour and antiviral activities of the marine compounds has stimulated interest in their synthesis because they are only available in minute amounts from natural sources. Total syntheses have been reported for pederin itself, 8-11 mycalamides A 12-14 and B 14,15 , and onnamide A. 16 Progress towards theopederin derivatives has been recorded 17,18 but no total syntheses have yet appeared. We recently devised a general approach to all known members of the pederin family based on the metallated dihydropyran 2 (Scheme 1), which is a precursor to the 'left-half' common to all members of the pederin family, and the dihydropyranone 3, a platform designed for side-chain variation (Note 1). Our strategy was exemplified in a synthesis of mycalamide B (4) 15 in which the trioxadecalin intermediate 5 was fabricated from the dihydropyranone 3, and we now Scheme 1Downloaded by: University at Buffalo (SUNY). Copyrighted material. December 1998SYNLETT 1433 disclose the first synthesis of a member of theopederin family, theopederin D (6) which likewise uses trioxadecalin intermediate 5.To further underscore the flexibility of our general strategy, we also report the conversion of dihydropyranone 3 to the amide 7, a key pederin intermediate. Theopederin DOur synthesis of theopederin D began with the reductive cleavage of the pivalate ester in 5 (Scheme 2) using Red-Al followed by oxidation of the primary alcohol with pyridinium dichromate to give the carboxylic acid 8. A crucial step of the synthesis, introduction of the aminal centre at C10, was performed using a Curtius rearrangement as described by Roush 19 in order to secure the stereochemistry at the aminal centre unambiguously. The sequence entailed preparation of the acyl azide by reaction of carboxylic acid 8 with diphenylphosphoryl azide followed by thermolysis in the presence of 2-(trimethylsilyl)ethanol to trap the intermediate isocyanate as its 2-(trimethylsilyl)ethyl carbamate 9. No epimerisation of the aminal centre was observed. Acylation of the carbamate 9 with methyl oxalyl chloride in the presence of DMAP occurred slowly but cleanly to give the N-acyl oxalamide 10 in 70% yield. The crucial oxalamide ester 11 (Note 2) was then released by fluoride-induced cleavage of the 2-(trimethylsilyl)ethyl carbamate 10. 20The bridge linking the two ring systems was created by reaction of the oxalamide ester 11 with 3 equivalents of the lithiated dihydropyran 2 in the prese...

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A Synthesis of Mycalamide B

Cited by 33 publications

References 20 publications

A starlike amphiphilic graft copolymer with hydrophilic poly(acrylic acid) backbones and hydrophobic polystyrene side chains

A starlike amphiphilic graft copolymer with hydrophilic poly(acrylic acid) backbones and hydrophobic polystyrene side chains

Progress toward the Total Synthesis of Psymberin/Irciniastatin A

A Synthesis of Theopederin D and a Formal Synthesis of Pederin

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