School of Pharmacy

Staff listing for the Biomolecular Science and Medicinal Chemistry Division 

Image of Weng Chan

Weng Chan

Professor of Chemical Biology, Faculty of Science

Contact

Biography

I gained my PhD from the University of Nottingham in 1988 under the supervision of Professor Barrie Bycroft and Dr Ray Grout. This was followed by a period of postdoctoral training (1988-1992) under the guidance of Barrie Bycroft (Univ Nottingham), Gordon Roberts (Univ Leicester) and Mike Gasson (IFR, Norwich). In 1992, I was appointed to a lectureship at Nottingham, and was promoted to Senior Lecturer in 2000 and to Reader in Chemical Biology in 2007. In 2020, I was promoted to Professor of Chemical Biology.

Since 1992, I have supervised over 50 PhD and MRes students who have successfully defended their theses. Over the same period, I have mentored over 10 postdoctoral fellows. A significant milestone in my career was the publication of my authoritative book 'Fmoc Solid Phase Peptide Synthesis: A Practical Approach' in 2000, which soon became an international 'Peptide Chemist Bible'. In 2006, I organised and chaired the first Merck Biosciences/RSC-sponsored mini-symposium on 'Chemistry and Biology of Peptides'.

In the field of peptide chemistry, I was instrumental in the development of a series of unique multi-functional/orthogonally protected chemical reagents, e.g. novel 4-azalysine analogues, which facilitated the construction of hybrid and complex peptides. The Dde-based chemistry and chemical toolkits, ranging from amine- (Bycroft et al 1993, 1994, Nash et al 1996) and carboxy-protecting groups (Chan et al 1995) to novel tagging reagents and pseudoaromatic amino acids (Middleton et al 2004), which are now widely used by the biomedical and chemical community, were discovered and further developed in my laboratory.

I am a Fellow of the Royal Society of Chemistry, and was (in 2009) a Visiting Professor at the Universite Pierre et Marie Curie, Paris, FRANCE. I am a member of the editorial board for the journal, Frontiers in Bacteriology (https://www.frontiersin.org/journals/bacteriology), as Specialty Chief Editor for 'Emerging bacterial threats and their treatments'.

Teaching

Bacterial and Fungal Infection; Synthesis of Simple Drugs; Synthesis of Complex Drugs; Research Project

Research Summary

My research activities are primarily hypothesis driven, and take a multidisciplinary but yet integrative approach to the identification, construction and manipulation of molecules to address defined… read more

Recent Publications

Current Research

My research activities are primarily hypothesis driven, and take a multidisciplinary but yet integrative approach to the identification, construction and manipulation of molecules to address defined biomedical objectives. A rational chemical design process is extensively applied for the production of novel macrocyclic peptides, peptidomimetics and low-molecular weight molecules.

These agents are used either as chemical tools to interrogate or to illuminate biomolecular interactions, or as lead drug candidates. The thematic areas in which this integrative chemical biology approach has been applied include: (i) Gram-positive pathogenicity; (ii) antimicrobials; and (iii) microbiome science.

As Principal Investigator, I - with Ingrid Dreveny, Tanya Monaghan (SoM), Brenda Wren and Lisa Dawson (LSHTM) - was awarded nearly £2M by MRC DPFS (2019-2023) to work on the translational programme 'LY256: a novel and potent antibiotic for treating Clostridioides difficile infection'. Studies on the translation of the macrocyclic antibiotic LY256 were also supported by several other grants - MRC Confidence-in-Concept (2016-2017); Hermes Award (2015-2016; 2020).

I am one of the key drivers of the MRC Programme Grants (2003-08; 2009-2014; 2016-2020 with Paul Williams), which ensures delivery of vital molecules in the context of modern medicinal chemistry. My pivotal contribution focuses on the discovery of novel chemical agents that attenuates staphylococcal infection by inhibiting the expression of virulence proteome. Importantly, a thorough structure-activity relationship studies led to the hypothesis of a two-site binding model for the interaction of S. aureus cognate activating-ligand AIP with AgrC. This work has recently expanded to the molecular and structural studies of the AgrC receptor and the multi-functional bioprocessing enzyme AgrB, as well as studies directed towards other important pathogens such as C. difficile.

ORCID http://orcid.org/0000-0002-0488-825X

Web of science https://www.webofscience.com/wos/author/record/884899

Our recent minireview paper was highlighted as noteworthy in ChemistryViews http://www.chemistryviews.org/details/ezine/9535721/New_Antibiotics_Against_Resistant_Bacteria.html

Journal of Antimicrobial Chemotherapy Editor's Choice: 5-Hydroxyethyl-3-tetradecanoyltetramic acid represents a novel treatment for intravascular catheter infections due to Staphylococcus aureus

Membership of Professional Bodies & Committees

  • Fellow of the Royal Society of Chemistry
  • Member of American Chemical Society
  • Member of the American Peptide Society
  • Member of Applied Microbiology International

School of Pharmacy

University of Nottingham
University Park
Nottingham, NG7 2RD

For all enquiries please visit:
www.nottingham.ac.uk/enquiry