Gelatin is a versatile natural material. To tailor its properties specifically to the various applications in medicine, diagnostics, and cosmetics, the Fraunhofer IGB has developed a toolbox for chemical functionalization. With the help of automated processes, the modifications can now be scaled under defined conditions, and reproducible batches of modified gelatin can be produced on a scale ranging from grams to kg for customer sampling.

The German Chemical Industry Fund (FCI) is supporting the course offering ‘DigiChemJN’ at the Faculty of Chemistry and Pharmacy. DigiChemJN strengthens students’ data literacy by providing them qualifications in data-based research methods, experimental datasets, and artificial intelligence (AI).

Which cellular processes ensure that immune responses are controlled precisely? A new study by the Institute of Cell Biology and Immunology Thurgau (BITG) and the University of Konstanz decodes a decisive signalling pathway.

Living systems such as cells rely on membrane pores and channels to transport molecules, exchange signals, and organize biochemical reactions. These functions emerge from dynamic interactions between molecular components. Researchers at the University of Stuttgart have used DNA nanotechnology to develop a synthetic membrane architecture that mimics such interactions.

Until now, it has been technically nearly impossible to rotate highly sensitive samples in all directions under a microscope without making contact. Researchers at the KIT have developed a new laser-based technique that allows microscopic samples such as cells to be rotated contact-free in all three spatial directions. The laser creates tiny temperature differences in the liquid, which trigger gentle fluid flows that move the sample.

Prof. Dr Simon Elsässer will be awarded one of this year’s Alexander von Humboldt Professorships in Berlin on 12 May 2026. With funding of five million euros, Elsässer will strengthen Freiburg’s research focus ‘Signals of Life’ over the next five years. In this interview, he discusses complex decision-making processes in cells, the significance of signals and what makes the research environment in Freiburg so special.

Ulm University held an awards ceremony to recognise the outstanding achievements in research and teaching of its early-career researchers. The event, held at the end of April at Villa Eberhardt, focused on researchers who had received seed funding for their own research projects.

A new technique based on labelled sugar molecules is providing previously unknown insights into the inner ear. A study by the University of Konstanz and Charité-Universitätsmedizin Berlin shows that the cupula in the inner ear of zebrafish completely regenerates within approximately two months. These findings open up a new avenue for research into sudden hearing loss and acute disorders of the sense of balance.

Within biological cells, molecules are constantly in motion. Investigating these motions, however, is still difficult, due to the fact that these processes occur on very small length and time scales. To overcome these challenges, researchers from HITS and MPI-P have developed a simulation method that works rapidly and can predict chemical processes in cells with high precision. Their findings have been published in Nature Communications.

Can Aztekin and his team have discovered how oxygen-sensing explains why amphibians regenerate limbs and mammals do not.

For over a decade, a class of drugs called BET inhibitors has been tested in cancer trials with high expectations. The biology looked promising. Many cancers depend on oncogenes that (BET) proteins help activate, so blocking BET proteins should slow tumor growth. In the lab, it often did. In patients, results were mostly disappointing: limited responses, significant side effects, and no clear way to predict which tumors would respond at all.

Proof-of-concept study of organoid technology - 26/03/2026

Can organoids improve the treatment of pancreatic cancer?

A clinical trial called UNITEPANC is exploring whether organoid-based approaches can improve the treatment of pancreatic cancer. BIOPRO Baden-Württemberg spoke with the study’s principal investigator and pancreatic cancer specialist, Prof. Dr. Thomas Seufferlein of University Hospital Ulm, to discuss the disease more broadly along with the specific aims of the trial. The interview was conducted by Walter Pytlik on behalf of BIOPRO.

Protein activity can be precisely regulated via subtle changes in temperature using heat-sensitive switches. Underlying this capability is a novel modular design strategy developed by researchers at the Institute of Pharmacy and Molecular Biotechnology of Heidelberg University. The strategy allows the integration of sensory domains in various proteins regardless of function or spatial structure.

Technology impulse for the Lake Constance region: The new Single Cell Centre at the University of Konstanz offers technology and expertise to study cells individually and at high resolution – for applications in medical diagnostics, medication development and basic research at universities.

Rewriting the transcript to heal diseases - 29/01/2026

Therapy involving the umlauts of the genetic alphabet

tRNAs are essential components of the protein synthesis machinery that also act as molecular switches in gene regulation and consequently in disease processes such as cancer. The Heidelberg-based start-up Umlaut.bio is developing novel therapeutics that specifically target tRNAs to intervene at the molecular origin of disease.

Researchers at the Hopp Children's Cancer Center Heidelberg, the German Cancer Research Center, the Heidelberg Medical Faculty of Heidelberg University, and Heidelberg University Hospital have taken a decisive step toward more precise diagnosis of brain tumors. The latest version of the AI-based Heidelberg CNS Tumor Methylation Classifier can identify more than 180 tumor types —twice as many as the previous version.

He researches stress and ageing at the interface of psychology and biology and is a guest at Ulm University: Professor Martin Picard from Columbia University has been awarded the Hans Kupczyk Visiting Professorship 2025, which is based in the Department of Clinical and Biological Psychology this year. On the occasion of the awarding of the visiting professorship, Picard spoke about energy as the foundation of human health of body and mind.

Heidelberg University has been successful in the current approval round of the German Research Foundation (DFG) with three grant applications for major research consortia. In the life sciences and medicine, a Collaborative Research Centre working on the Wnt signaling pathway will enter its third funding period. Two transregional consortia with major participation by researchers from Ruperto Carola have also been extended.

In the current selection round, the German Research Foundation (DFG) has granted funding for two new Collaborative Research Centres at the University of Konstanz. Over the next four years, the research teams will be working intensively on trigger signals in biological cells as well as on "silence" and "noise" in human speech.

The technology company KyooBe Tech GmbH and the German Center for Infection Research (DZIF) have signed a memorandum of understanding to collaborate on future research and development projects. The aim of the collaboration is to evaluate an innovative technology for inactivating pathogens using the specific effect of low-energy accelerated electrons (Low Energy Electron Irradiation—LEEI) and to make it available to DZIF scientists.

The 2020 Nobel Prize in Chemistry was awarded for the development of CRISPR/Cas9, a method also known as “gene scissors”, which enables researchers to better understand how human cells function and stay healthy. Researchers at the University of Stuttgart have further developed CRISPR for this purpose. They present their CRISPRgenee method in Cell Reports Methods.

In the human body, stem cells process genetic information in an exceptionally reliable and very fast manner. To do this, they access certain sections of the DNA in the cell nucleus. Researchers at KIT have investigated how the DNA-based information processing system works. Their results show that this process is comparable to processes in modern computers and could therefore serve as a model for new types of DNA-based computer chips.

Alumnus Bastian Linder discusses the origin of this start-up and how a tRNA mechanism is helping scientists understand the importance and use of various RNA modifications as they pertain to disease.

Chordomas are rare bone tumors for which there are no effective drugs. A research team from the DKFZ and the NCT Heidelberg has now developed a promising approach: Tailor-made mini-proteins specifically block the driver of tumor development. In the result, slowing the growth of chordoma cells in the laboratory and in a mouse model, while also revealing further molecular vulnerabilities of the tumor that could be addressed with approved drugs.

Until now, the early phase of drug discovery for the development of new therapeutics has been cost- and time-intensive. Researchers at KIT have developed a platform on which extremely miniaturized nanodroplets with a volume of 200 nanoliters per droplet and containing 300 cells per test can be arranged. This platform enables the researchers to synthesize and test thousands of therapeutic agents on the same chip, saving time and resources.