Efficient solid-phase-based total synthesis of the bisintercalator TANDEM
Efficient solid-phase-based total synthesis of the bisintercalator TANDEM
In this article, the first solid-phase-based total synthesis of TANDEM, a synthetic analogue of triostin A, is described. In initial studies, the synthesis incorporated depsipeptide formation, introduction of chromophores, and disulfide bond formation on the solid phase, prior to a final solution-phase macrolactamization, to give the target molecule. Although pure TANDEM was obtained in an overall yield comparable to those for all syntheses to date, the yield of the final cyclization was low (11%). A more efficient approach involved removal from the solid phase prior to disulfide bond formation. The resulting linear peptide underwent macrolactamization under mild conditions and high dilution. Final disulfide bond formation was essentially quantitative and gave the target molecule, TANDEM, in an overall yield of 18%. The final compound was assessed for its ability to bind to 5‘-TpA sequences on DNA by DNase I footprinting. This efficient synthesis sets the stage for a study of the structure?activity relationship of TANDEM and the natural product triostin A, with analogues containing “point mutations” at every site within the cyclic compounds.
7654-7661
Malkinson, John P.
a8f447bf-dc3e-48f6-8129-8aebd348ee73
Anim, Michael K.
0c1091ea-38a3-444a-9cb7-41f4b170d6ca
Zloh, Mire
f059a2a9-ee3e-418a-b0c3-37834238c77d
Searcey, Mark
92a85b46-a185-4c99-b12d-0e763be6549e
Hampshire, Andrew J.
68aac3b7-88b7-4417-8793-9c2a06b01abc
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f
24 August 2005
Malkinson, John P.
a8f447bf-dc3e-48f6-8129-8aebd348ee73
Anim, Michael K.
0c1091ea-38a3-444a-9cb7-41f4b170d6ca
Zloh, Mire
f059a2a9-ee3e-418a-b0c3-37834238c77d
Searcey, Mark
92a85b46-a185-4c99-b12d-0e763be6549e
Hampshire, Andrew J.
68aac3b7-88b7-4417-8793-9c2a06b01abc
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f
Malkinson, John P., Anim, Michael K., Zloh, Mire, Searcey, Mark, Hampshire, Andrew J. and Fox, Keith R.
(2005)
Efficient solid-phase-based total synthesis of the bisintercalator TANDEM.
Journal of Organic Chemistry, 70 (19), .
(doi:10.1021/jo050959a).
Abstract
In this article, the first solid-phase-based total synthesis of TANDEM, a synthetic analogue of triostin A, is described. In initial studies, the synthesis incorporated depsipeptide formation, introduction of chromophores, and disulfide bond formation on the solid phase, prior to a final solution-phase macrolactamization, to give the target molecule. Although pure TANDEM was obtained in an overall yield comparable to those for all syntheses to date, the yield of the final cyclization was low (11%). A more efficient approach involved removal from the solid phase prior to disulfide bond formation. The resulting linear peptide underwent macrolactamization under mild conditions and high dilution. Final disulfide bond formation was essentially quantitative and gave the target molecule, TANDEM, in an overall yield of 18%. The final compound was assessed for its ability to bind to 5‘-TpA sequences on DNA by DNase I footprinting. This efficient synthesis sets the stage for a study of the structure?activity relationship of TANDEM and the natural product triostin A, with analogues containing “point mutations” at every site within the cyclic compounds.
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Published date: 24 August 2005
Organisations:
Molecular and Cellular
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Local EPrints ID: 363334
URI: http://eprints.soton.ac.uk/id/eprint/363334
ISSN: 0022-3263
PURE UUID: f353c340-e849-4859-b003-8955633c93de
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Date deposited: 25 Mar 2014 11:00
Last modified: 15 Mar 2024 02:36
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Author:
John P. Malkinson
Author:
Michael K. Anim
Author:
Mire Zloh
Author:
Mark Searcey
Author:
Andrew J. Hampshire
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