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proteins

Radcliffe Camera roof against blue sky, with Oxford banner above

X-rays for drug discovery

Professor Frank von Delft works to ensure that X-ray structures can serve as a routine and predictive tool for generating novel chemistry for targeting proteins.
Radcliffe Camera roof against blue sky, with Oxford banner above

X-rays for drug discovery

Professor Frank von Delft works to ensure that X-ray structures can serve as a routine and predictive tool for generating novel chemistry for targeting proteins.
Radcliffe Camera roof against blue sky, with Oxford banner above

Unravelling proteins

Dr Nicola Burgess-Brown heads the Biotechnology Group at the SGC, which generates proteins suitable for structural and functional studies.
Radcliffe Camera roof against blue sky, with Oxford banner above

Targeting drug discovery

The development of new medicines is dependent on the identification of novel drug targets.
Radcliffe Camera roof against blue sky, with Oxford banner above

Understanding growth signals

Growth hormones and cytokines regulate the key physiological processes of growth and differentiation as well as responses to injury and infection.
Radcliffe Camera roof against blue sky, with Oxford banner above

Unravelling proteins

Dr Nicola Burgess-Brown heads the Biotechnology Group at the SGC, which generates proteins suitable for structural and functional studies.
Radcliffe Camera roof against blue sky, with Oxford banner above

Targeting drug discovery

The development of new medicines is dependent on the identification of novel drug targets.
Radcliffe Camera roof against blue sky, with Oxford banner above

Understanding growth signals

Growth hormones and cytokines regulate the key physiological processes of growth and differentiation as well as responses to injury and infection.
Radcliffe Camera roof against blue sky, with Oxford banner above

Chemistry, epigenetics and drugs

Alteration of gene expression is fundamental to many diseases. A better understanding of how epigenetic proteins affect diseases provides a starting point for therapy development and the discovery of new drug.
Radcliffe Camera roof against blue sky, with Oxford banner above

Chemistry, epigenetics and drugs

Alteration of gene expression is fundamental to many diseases. A better understanding of how epigenetic proteins affect diseases provides a starting point for therapy development and the discovery of new drug.
Chemistry for the Future: Human Health

3D Printing and The Structure of Proteins

Using 3D printed molecules, Rok Sekirnik, a DPhil student in the emerging field of chemical biology, shows how protein structures can be determined in some of the Department's most distinctive looking labs.
Chemistry for the Future: Human Health

Epigenetics and New Anti-Cancer Treatments

At the interface of chemistry, biology, and medicine, Cyrille Thinnes, a DPhil student in the Schofield Group, shares his research into the next generation of anti-cancer treatments.
Chemistry for the Future: Human Health

Introduction: How Chemistry Research Impacts Human Health

To truly understand disease, we need to understand the underlying chemical processes that direct human biology. Dr Emily Flashman introduces some of the research in the Department of Chemistry that will help improve our health in future.

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