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Rutjes group

The Rutjes research group. led by Prof. Floris Rutjes, run several research projects in the areas of:

• Continuous flow chemistry, in particular photochemical reactions to efficiently generate highly functionalised building blocks;
• Synthesis of biologically relevant small molecules, involving the development of new synthetic methodology to construct new building blocks;
• New drugs for tropical infectious diseases;
• Developing new hyperpolarisation techniques of organic molecules (Signal Amplification By Reversible Exchange, SABRE), to detect organic molecules in submicromolar concentrations in complex mixtures.

Kouwer group

Our research, led by Dr. Paul Kouwer, focuses on smart soft materials; materials with properties that change when time, temperature, pressure or something else changes. By combining the best of the worlds of synthetic and biological materials, we developed a synthetic gel (PIC) with the properties of a biological gel. As a synthetic material we have full control over the structure and the mechanical properties, and its strong biomimetic properties makes PIC gels very suited for a wide range of biological applications, for instance stem cell engineering, fibrosis assay development and to improve tissue culture techniques. Also, we're exploring possibilities for a suitable matrix for more complex cultures, such as organoid, and are looking to apply in the in vivo context, particularly in wound healing.

Bonger group

In the Bonger Lab, led by Dr. Kim Bonger, we combine organic chemistry with molecular biology and biochemistry to target and answer biological questions related to autoimmune diseases and develop novel platforms to understand and tackle them. Active projects include: Coordination-Assisted Bioorthogonal Chemistry, selective targeting of autoreactive B-cells, and chemoenzymatic subcellular protein labelling.

Boltje group

In the Boltje group, led by Dr. Thomas Boltje, we aim to study and identify important glycans involved in malignant transformation and pathogenic infection. For this purpose, we prepare complex glyans by chemical synthesis and also develop chemical tools to perturb the glycan biosynthesis to identify the essential glycans mediating such processes.

Löwik group

In the Löwik group, led by Dr. Dennis Löwik, we synthesize peptides and try to manipulate their structure and function. These peptides form the building blocks to create new materials for tissue engineering and synthetic vaccines. Moreover, peptides are employed in our group for the design of molecules to diagnose and treat cancer by specifically delivering drugs to diseased cells.