The combination of synthesis and ultra-high-resolution NMR spectroscopy reveals the correct structure of caylobolide A

Malcolm R P George; Max W Deering; Daniele Fiorito; Keren Solomon; Kevin Tridgewell; Adam Noble; Craig P Butts; Varinder K Aggarwal

doi:10.6084/m9.figshare.28173632

The combination of synthesis and ultra-high-resolution NMR spectroscopy reveals the correct structure of caylobolide A

Malcolm R P George, Max W Deering, Daniele Fiorito, Keren Solomon, Kevin Tridgewell, Adam Noble, Craig P Butts^*, Varinder K Aggarwal^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

Abstract

Polyketide-derived natural products bearing repeat 1,5-polyols are commonly encountered but their structures are notoriously difficult to determine using spectroscopic techniques. The presence of distal 1,5-diol moieties frequently leads to spectral overlap and chemical shift degeneracy giving rise to ambiguity in their assignment. Caylobolide A is a representative member of this class of natural products, bearing a 36-membered lactone, with six 1,5-diol units and two 1,3-diol units. Its partial structure had been proposed, but only 4 of the 12 stereogenic centres had been assigned. Herein we report a blueprint for the structure determination of this class of natural products, comprising the use of ultra-high-resolution NMR spectroscopy, Mosher’s ester analysis, and an efficient mixed isomer synthesis to unveil the correct structure of caylobolide A. With this approach, the partial stereochemistry proposed and the position of the triol unit within the carbon chain has been reassigned, culminating in the total synthesis of caylobolide A in 17 steps.

Original language	English
Journal	Nature Synthesis
Early online date	13 Mar 2025
DOIs	https://doi.org/10.6084/m9.figshare.28173632 https://doi.org/10.1038/s44160-025-00762-2
Publication status	E-pub ahead of print - 13 Mar 2025

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10.1038/s44160-025-00762-2Licence: CC BY

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Synthesis and Structure Elucidation of Natural Products
Aggarwal, V. K. (Principal Investigator)
1/02/21 → 31/01/26
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George, M. R. P., Deering, M. W., Fiorito, D., Solomon, K., Tridgewell, K., Noble, A., Butts, C. P., & Aggarwal, V. K. (2025). The combination of synthesis and ultra-high-resolution NMR spectroscopy reveals the correct structure of caylobolide A. Nature Synthesis. Advance online publication. https://doi.org/10.6084/m9.figshare.28173632, https://doi.org/10.1038/s44160-025-00762-2

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title = "The combination of synthesis and ultra-high-resolution NMR spectroscopy reveals the correct structure of caylobolide A",

abstract = "Polyketide-derived natural products bearing repeat 1,5-polyols are commonly encountered but their structures are notoriously difficult to determine using spectroscopic techniques. The presence of distal 1,5-diol moieties frequently leads to spectral overlap and chemical shift degeneracy giving rise to ambiguity in their assignment. Caylobolide A is a representative member of this class of natural products, bearing a 36-membered lactone, with six 1,5-diol units and two 1,3-diol units. Its partial structure had been proposed, but only 4 of the 12 stereogenic centres had been assigned. Herein we report a blueprint for the structure determination of this class of natural products, comprising the use of ultra-high-resolution NMR spectroscopy, Mosher{\textquoteright}s ester analysis, and an efficient mixed isomer synthesis to unveil the correct structure of caylobolide A. With this approach, the partial stereochemistry proposed and the position of the triol unit within the carbon chain has been reassigned, culminating in the total synthesis of caylobolide A in 17 steps.",

author = "George, {Malcolm R P} and Deering, {Max W} and Daniele Fiorito and Keren Solomon and Kevin Tridgewell and Adam Noble and Butts, {Craig P} and Aggarwal, {Varinder K}",

year = "2025",

month = mar,

day = "13",

doi = "10.6084/m9.figshare.28173632",

language = "English",

journal = "Nature Synthesis",

issn = "2731-0582",

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T1 - The combination of synthesis and ultra-high-resolution NMR spectroscopy reveals the correct structure of caylobolide A

AU - George, Malcolm R P

AU - Deering, Max W

AU - Fiorito, Daniele

AU - Solomon, Keren

AU - Tridgewell, Kevin

AU - Noble, Adam

AU - Butts, Craig P

AU - Aggarwal, Varinder K

PY - 2025/3/13

Y1 - 2025/3/13

N2 - Polyketide-derived natural products bearing repeat 1,5-polyols are commonly encountered but their structures are notoriously difficult to determine using spectroscopic techniques. The presence of distal 1,5-diol moieties frequently leads to spectral overlap and chemical shift degeneracy giving rise to ambiguity in their assignment. Caylobolide A is a representative member of this class of natural products, bearing a 36-membered lactone, with six 1,5-diol units and two 1,3-diol units. Its partial structure had been proposed, but only 4 of the 12 stereogenic centres had been assigned. Herein we report a blueprint for the structure determination of this class of natural products, comprising the use of ultra-high-resolution NMR spectroscopy, Mosher’s ester analysis, and an efficient mixed isomer synthesis to unveil the correct structure of caylobolide A. With this approach, the partial stereochemistry proposed and the position of the triol unit within the carbon chain has been reassigned, culminating in the total synthesis of caylobolide A in 17 steps.

AB - Polyketide-derived natural products bearing repeat 1,5-polyols are commonly encountered but their structures are notoriously difficult to determine using spectroscopic techniques. The presence of distal 1,5-diol moieties frequently leads to spectral overlap and chemical shift degeneracy giving rise to ambiguity in their assignment. Caylobolide A is a representative member of this class of natural products, bearing a 36-membered lactone, with six 1,5-diol units and two 1,3-diol units. Its partial structure had been proposed, but only 4 of the 12 stereogenic centres had been assigned. Herein we report a blueprint for the structure determination of this class of natural products, comprising the use of ultra-high-resolution NMR spectroscopy, Mosher’s ester analysis, and an efficient mixed isomer synthesis to unveil the correct structure of caylobolide A. With this approach, the partial stereochemistry proposed and the position of the triol unit within the carbon chain has been reassigned, culminating in the total synthesis of caylobolide A in 17 steps.

U2 - 10.6084/m9.figshare.28173632

DO - 10.6084/m9.figshare.28173632

M3 - Article (Academic Journal)

SN - 2731-0582

JO - Nature Synthesis

JF - Nature Synthesis

ER -

The combination of synthesis and ultra-high-resolution NMR spectroscopy reveals the correct structure of caylobolide A

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