AI Article Synopsis
- Tentoxin is a phytotoxic cyclic tetrapeptide produced by Alternaria alternata fungi, and previous synthesis methods have struggled with low yields due to challenging steps.
- A new method uses a modified Erlenmeyer aldolization reaction to stereospecifically introduce Z-dehydrophenylalanine into a linear tetrapeptide, yielding 72%.
- A comparative study of cyclization reagents revealed HATU to be the most effective, achieving an 81% cyclization yield and leading to a total yield of 60% for tentoxin, opening pathways for synthesizing similar compounds.
Article Abstract
Tentoxin is a naturally occurring phytotoxic cyclic tetrapeptide excreted by fungi of the Alternaria alternata family. The four total syntheses of tentoxin published to date give poor total yields, mainly owing to two difficulties, the introduction of the dehydro amino acid and more especially the cyclization step. Here we describe a method that stereospecifically introduces Z-dehydrophenylalanine (deltaZPhe) by a modified Erlenmeyer aldolization reaction. The linear tetrapeptide, Boc-R1Ala-Leu-R2deltaZPhe-G1y-OMe (R1, R2: CH3, 14CH3), the precursor of tentoxin, was obtained in a 72% yield from Boc-Leu-Gly-OH. This linear tetrapeptide, labelled with carbon-14, was used for a comparative study of four cyclization reagents DPPA, DCC-PfpOH, HBTU and HATU. This last was the most effective and gave tentoxin in a 81% cyclization yield. The activated ester formed with this reagent displayed an enhanced capacity for cyclization, permitting cyclization in concentrated medium (10 mM). This new synthetic route gave tentoxin in a 60% yield from Boc-Leu-Gly-OH and offers a means of achieving the synthesis of hitherto elusive analogues.
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