Wednesday, October 26, 2011

Approach to access biorelevant structures by 'remodeling' natural products

Monday, October 24, 2011

There is an increasing need for pharmacological tools for biomedical and translational research applications. The field of diversity-oriented synthesis (DOS) has been very fruitful in providing access to numerous new molecules with diverse shapes and chemical structures in order to discover candidate molecules for therapeutic use. Boston University researchers, in a paper published in the journal Nature Chemistry [23 OCTOBER 2011 | DOI: 10.1038/NCHEM.1178], present a new approach to accessing new, biorelevant structures by "remodelling" natural products. In this case, they demonstrate how the natural product derivative fumagillol can been remodelled to access a collection of new molecules using highly efficient chemical reactions.

"Overall, these studies should pave the way for work to identify pharmacological tools for use in CNS research, oncology, and as anti-infective agents," said John A. Porco, Jr., professor of chemistry at Boston University. "These studies also will enable future studies to remodel additional natural product scaffolds to access novel therapeutic agents."

In the search for novel biologically active molecules, DOS strategies break through the limitation of traditional library synthesis by sampling new chemical space. Many natural products can be regarded as useful starting points for DOS, wherein stereochemically rich core structures may be reorganized into chemotypes that are distinctly different from the parent structure. Ideally, to be suited to library applications, such transformations should be general and involve few steps.

With this objective in mind, Porco and colleagues including Professor John Snyder and postdoctoral fellow Dr. Brad Balthaser successfully remodelled the highly oxygenated natural product fumagillol in several ways using a reaction-discovery-based approach. In reactions with amines, excellent selectivity in a bis-epoxide opening/cyclization sequence was obtained using the appropriate metals catalysts forming either perhydroisoindole or perhydroisoquinoline products. Perhydroisoindoles were further remodelled to other complex structures including novel benzoxazepines.

###

Boston University Medical Center: http://www.bmc.org

Thanks to Boston University Medical Center for this article.

This press release was posted to serve as a topic for discussion. Please comment below. We try our best to only post press releases that are associated with peer reviewed scientific literature. Critical discussions of the research are appreciated. If you need help finding a link to the original article, please contact us on twitter or via e-mail.

This press release has been viewed 62 time(s).

Source: http://www.labspaces.net/114553/Approach_to_access_biorelevant_structures_by__remodeling__natural_products_

jay leno machine gun kelly lindsey lohan reed hastings cujo weather denver weather denver

No comments:

Post a Comment

Note: Only a member of this blog may post a comment.