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Yusuf Hamied Department of Chemistry

 

Professor Ian Paterson FRSE FRS

Research in the group ranges across the total synthesis of biologically active natural products and structural analogues to the discovery and development of new synthetic methods. Professor Paterson retired in October 2021 and is no longer accepting graduate students and postdocs.

Stereocontrolled Synthesis of Bioactive Natural Products and Structural Analogues

Representative targets include rare anticancer polyketides of both marine and terrestrial origin such as 1-4 below. For example, dictyostatin (1) shares the same microtubule-stabilising mechanism as the clinically important anticancer drug Taxol, while spirastrellolide A (2) is a potent inhibitor of protein phosphatase 2A. Likewise, chivosazole A (3) and reidispongiolide A (4) are novel actin-interacting macrolides isolated from myxobacteria and marine sponges respectively, which also represent challenging synthetic targets. In all these cases, the initial uncertainty over the stereochemistry, combined with their natural scarcity, has adversely affected their development. Efficient and flexible synthetic routes for the modular construction of these and other complex polyketide natural products are being pursued to establish their full configurations and provide a sustainable supply for detailed biological evaluation. A parallel objective is to design simplified analogues and hybrids that retain the exceptional cancer cell growth inhibitory properties whilst increasing their synthetic accessibility.

New Synthetic Methods

There is a need for new and more efficient methods of synthesis, particularly ones that achieve high levels of stereochemical control, where the development of asymmetric aldol methodology is of particular interest. These new methods are being applied to the synthesis of a wide variety of biologically important natural products.

Selected Publications

  • Dictyostatin and hybrids with discodermolide and taxol. Chem. Asian J. (2011), 6, 459; Tetrahedron (2010), 66, 6534
  • Spirastrellolide A. Angew. Chem. Int. Ed. (2012), 51, 2749; Org. Biomol. Chem.  (2012), 10, 5861 and 5873
  • Polyketide natural products as anticancer drug candidates. Org. Lett.  (2013), 15, 3118; Angew. Chem. Int. Ed. (2013), 52, 6517; Angew. Chem. Int. Ed. (2011), 50, 3219Curr. Opin. Drug Discov. Devel. (2010), 13, 777
  • Natural product synthesis using asymmetric aldol reactions. Angew. Chem. Int. Ed. (2013), 52, 9097

Publications

Synthesis of novel 11-desmethyl analogues of laulimalide by Nozaki-Kishi coupling (vol 15, pg 2243, 2005)
I Paterson, H Bergmann, D Menche, A Berkessel
– Organic Letters
(2006)
8,
1511
(doi: 10.1021/ol060252q)
Synthesis of the C1-C21 southern hemisphere of the originally proposed structure of spirastrellolide a
I Paterson, EA Anderson, SM Dalby
– Synthesis
(2005)
3225
(doi: 10.1055/S-2005-918449)
Microtubule interactions with chemically diverse stabilizing agents: Thermodynamics of binding to the paclitaxel site predicts cytotoxicity
RM Buey, I Barasoain, E Jackson, A Meyer, P Giannakakou, I Paterson, S Mooberry, JM Andreu, JF Díaz
– Chem Biol
(2005)
12,
1269
(doi: 10.1016/j.chembiol.2005.09.010)
Advances in the Total Synthesis of Biologically Important Marine Macrolides †
K-S Yeung, I Paterson
– Chem Rev
(2005)
105,
4237
(doi: 10.1021/cr040614c)
The Renaissance of Natural Products as Drug Candidates
I Paterson, EA Anderson
– Science
(2005)
310,
451
(doi: 10.1126/science.1116364)
Toward the Synthesis of Spirastrellolide A:  Construction of a Tetracyclic C26−C40 Subunit Containing the DEF-Bis-Spiroacetal
I Paterson, EA Anderson, SM Dalby, O Loiseleur
– Org Lett
(2005)
7,
4121
(doi: 10.1021/ol051403c)
Toward the Synthesis of Spirastrellolide A:  Construction of Two C1−C25 Diastereomers Containing the BC−Spiroacetal
I Paterson, EA Anderson, SM Dalby, O Loiseleur
– Organic Letters
(2005)
7,
4125
(doi: 10.1021/ol051405x)
Towards the combinatorial synthesis of spongistatin fragment libraries by using asymmetric aldol reactions on solid support.
I Paterson, D Gottschling, D Menche
– Chemical communications (Cambridge, England)
(2005)
3568
(doi: 10.1039/b505746a)
Development of a third-generation total synthesis of (+)-discodermolide: An expedient Still-Gennari-type fragment coupling utilizing an advanced beta-ketophosphonate
I Paterson, I Lyothier
– JOURNAL OF ORGANIC CHEMISTRY
(2005)
70,
5494
(doi: 10.1021/jo0505481a)
The stereocontrolled total synthesis of altohyrtin A /spongistatin 1: the southern hemisphere EF segment
I Paterson, MJ Coster, DY-K Chen, JL Aceña, J Bach, LE Keown, T Trieselmann
– Organic & Biomolecular Chemistry
(2005)
3,
2420
(doi: 10.1039/b504149j)
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Research Groups

Research Interest Group

Telephone number

01223 336407

Email address

ip100@cam.ac.uk

College

Jesus College

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