Bioeconomy

Microbiologists at the University of Tübingen modify bacteria to produce climate-neutral and rapidly degradable bioplastics.

Press release - 28/02/2011

"Sebacinales Everywhere" – fungi that live in special symbioses

Researchers have a created a specific type of endophytic symbiosis between fungi and plant roots that does not lead to visible mycorrhiza. In addition, a team of biologists from Tübingen along with international partners has discovered that Sebacinales (fungi) are ubiquitous endophytes of plant roots.

Article - 09/12/2013

Biological soil remediation: phytoremediation with plants and their associated microbes

Prof. Dr. Andreas Kappler and his team of researchers from the University of Tübingen are exploring how cadmium and other harmful metal compounds can be removed from soil. The principle is based on the ability of bacteria to break up cadmium-containing soil particles the released cadmium is then taken up by the plants and removed as the plants are pruned and disposed of.

pre-start-up company Wheyfinery - 13/04/2022

Acid whey as a valuable raw material for platform chemicals and more

There is not much you can do with acid whey, which is why several million litres of it are disposed of every year. This is both costly and not sustainable. However, researchers at Tübingen University have shown: acid whey can be used to produce precursors for biofuels, fine chemicals and antimicrobial livestock feed additives. They have set up the pre-start-up company Wheyfinery in an endeavour to make their scalable biorefinery concept…

Article - 10/03/2008

Sharks and the evolution of the locomotory apparatus

Zoologists at the University of Tübingen are investigating the biomechanics of swimming and the evolution of the muscles and tendons needed for swimming. Detailed information on how fish adapt to specific lifestyles help in the development of robot fish.

Press release - 31/05/2010

Geomicrobiologists from Tübingen discover how electricity flows in soil

Geomicrobiologists from the Centre for Applied Geoscience at the University of Tübingen in cooperation with researchers from the University of Wisconsin USA the Federal Institute for Materials Research and Testing BAM and the Humboldt University in Berlin are the first in the world to show that microorganisms are able to use solid-phase organic soil particles so-called humic substances to replace oxygen when grown in the absence of oxygen. The…

Article - 19/03/2012

Soil bacteria to produce new antibiotics

An ever-growing number of genomes of soil bacteria of the genus Streptomyces are being sequenced. Using a method known as “genome mining”, researchers at the University of Tübingen are working on the identification of gene clusters that have the potential to be used in industrial biotechnology for the production of new antibiotics and other pharmaceutically active substances. To achieve this, the biosynthesis gene clusters are integrated into…

Article - 02/04/2019

Simple sugar could soon compete with glyphosate

For many decades, glyphosate has been a common component of agricultural pesticides worldwide, although it is a controversial herbicide that may be harmful. The good news is that a more sustainable alternative is now in sight: researchers from the University of Tübingen have discovered a sugar molecule called 7-deoxy-sedoheptulose (7dSh) which inhibits the growth of plants and microorganisms, but appears to be completely harmless to human cells.

Chemists and microbiologists at Tübingen University discover sugar molecule that inhibits the growth of plants and microorganisms and is harmless to human cells ‒ An alternative to controversial glyphosate?

Article - 11/03/2009

Gerd Jürgens – from model fly to model plant: a high risk career

Some scientists have a keen sense for new and exciting research topics. The developmental biologist Dr. Gerd Jürgens from Tübingen is one such scientist. His courageous step from research involving the well-known fruit fly to research on a rather inconspicuous plant has recently been rewarded with his appointment as the new director of the Max Planck Institute for Developmental Biology.

Tübingen biotechnologist Lars Angenent is being awarded the Leibniz Prize by the German Research Foundation (DFG) in appreciation of his outstanding work in the field of environmental biotechnology, it was announced in Bonn on Thursday. The DFG said: “In view of climate change and the resulting need to develop a sustainable food, chemistry and energy economy, his work is highly relevant.”

Article - 25/02/2013

Computomics: unlocking the secrets of plant genome sequences

Thanks to the latest generation of sequencing technology, the deciphering of the complete genome of organisms is becoming faster and cheaper. The challenge is to compile the book of life from millions of DNA fragments and unlock the secrets of the human and other organisms. The young bioinformatics company Computomics in Tübingen is doing just this for crops. In contrast to the human genome, the genome of the majority of plants is still a book…

Article - 04/10/2010

ANASYN Ozan Gökay – research laboratory for complex tasks

Ozan Gökay, chemical engineer and chemist, has been thinking about setting up his own company for many years. Now he is about to turn his plans into reality and his company ANASYN will start operating in November 2010. The company will focus on analytics, syntheses and biotechnology.

Mini-factories for producing bioplastics - 05/05/2022

Bacteria produce bioplastics: resource-saving and very environmentally friendly

Using living cells as mini-factories to produce plastic from nothing more than water, sunlight and carbon dioxide; plastic that is also 100 percent degradable – it sounds far-fetched but it actually works: researchers at the University of Tübingen have genetically engineered cyanobacteria so that they fill their cells to the brim with polyhydroxybutyrate. The researchers are now turning the idea into reality with the development of pilot plants.

Professor Dr. Thomas Laux from the Institute of Biology III at the University of Freiburg has been awarded the Cornelia Harte Award for his achievements on the regulation of pluripotent stem cells in the growth centres of plants.

In collaboration with researchers from the University of Tübingen scientists from the Tübingen-based biotechnology company Novis GmbH have now evaluated a biological leaching method that can be used to recycle valuable resources from incineration slag using bacteria. Funded by the Baden-Württemberg Ministry of the Environment Climate Protection and the Energy Sector the experts from Tübingen are studying the possibility of using this method in…

Press release - 10/11/2009

Genes and proteins can’t explain everything

Andreas Wachter has been the head of the Emmy Noether research group at the Centre for Plant Molecular Biology (ZMBP) at the University of Tübingen since 2009. Of particular interest to Wachter are the molecular regulation mechanisms in key biological processes. He is the first person to transfer the latest insights from bacteria research to plant cells and stresses the importance of ribonucleic acid (RNA) in these vital processes.

Article - 19/09/2011

Uwe Ludewig and the future of agricultural crops

Prof. Dr. Uwe Ludewig has been head of the Department of Nutritional Crop Physiology at the University of Hohenheim for around a year now. Physicist by training and specialist in electrophysiology, Prof. Ludewig now works mainly on transport processes in plants. He plans to use molecular relationships to enhance the potential of agricultural crops, reduce the use of fertilisers and make agricultural plants fit for climate change.

Press release - 22/11/2010

Tübingen scientists turn snails into “slugs”

Biologists from Tübingen have reshaped the body plan of snails. Temporary exposure to platinum ions resulted in the formation of an internal shell in place of the normal external shell. The snails, which were artificially turned into slugs, survived normally. In the journal “Evolution & Development”, the researchers reported that the reshaping is most likely the result of altered gene activity. This shows that the shape of organisms may have…

Press release - 28/04/2010

Antibiotics & Co: Insilico and partners to improve biotech production

A veritable network specialist has become active in yet another network the GenBioCom joint project financed by BMBF Federal Ministry of Education and Research is profiting from Insilico Biotechnologys know-how on bacterial metabolism and genome-based metabolic simulations. The ultimate goal is to improve and expand the commercial use of Actinomyces bacteria as producers of bioproducts and active agents.

Dossier - 02/05/2011

Molecular bionics – inspirations from the microworld for the macroworld

Knowledge about the molecular organisation of structural and functional biological properties has led to the establishment of a new field of research molecular bionics. Everything that can be learnt from the macromolecular observation of interesting natural phenomena is complemented in this field by observations on the smallest i.e. molecular level. Processes and materials that have been optimised in the course of evolution are thus able to…

Article - 25/01/2016

How the application of chemicals in response to oil spills can be improved

When an oil spill occurs, chemical dispersants are routinely applied to the surface of the oil-contaminated seawater or into deeper water regions. Dr. Sara Kleindienst, a molecular ecologist from the Centre for Applied Geoscience at the University of Tübingen, has now shown that chemical dispersants do not stimulate oil biodegradation. In cooperation with an international team of researchers, Kleindienst simulated the Deepwater Horizon oil well…

Article - 23/08/2016

Bioenergy from meadow orchards

A project called ”Energiebündel & Flowerpower" run by the “Netzwerk Streuobst Mössingen" has established a complex local recycling network for biomass from meadow orchards. The network involves the city of Mössingen, the neighbouring municipality of Nehren, the KFB institution for the physically disabled and their self-help work group called “Streuobst und Naturschutz”, a biogas operator from Nehren, a start-up company called Vital…

Article - 11/11/2013

Pesticides and their effect on the environment

Ecotoxicologists from Tübingen are calling for new interdisciplinary approaches in order to improve investigations into the effect of pesticides on the living environment. They expect that a more effective and more frequent combination of field work and laboratory analyses will provide them with a clearer picture of the overall situation. This knowledge will enable all stakeholders involved in solving environmental issues to draw the right…