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Max Planck Institute for Terrestrial Microbiology

Seen under the microscope, the two "genders" of bakers' yeast, Saccharomyces cerevisiae, appear exactly the same in size and shape. And yet they show surprising differences in mating behavior, as researchers from Prof. Victor Sourjik's department have discovered. What advantages this might have and what their finding implies for science is reported in the latest issue of "Science Advances".

Yeast Mating: More than meets the eye

Seen under the microscope, the two "genders" of bakers' yeast, Saccharomyces cerevisiae, appear exactly the same in size and shape. And yet they show surprising differences in mating behavior, as researchers from Prof. Victor Sourjik's department have discovered. What advantages this might have and what their finding implies for science is reported in the latest issue of "Science Advances".

Photorespiration is a metabolic pathway in which photosynthetic energy is dissipated. Researchers led by Prof. Tobias Erb developed an innovative solution as part of the EU-funded "Gain4Crops" project: photorespiration can be bypassed by incorporating a bacterial metabolic pathway.

Turning problems into opportunities

Photorespiration is a metabolic pathway in which photosynthetic energy is dissipated. Researchers led by Prof. Tobias Erb developed an innovative solution as part of the EU-funded "Gain4Crops" project: photorespiration can be bypassed by incorporating a bacterial metabolic pathway.

It is primarily a novel protein complex on the cell surface that turns Ustilago maydis into a plant pathogen, as a research team led by Regine Kahmann has been able to show. This key role makes the complex an ideal target for future developments in plant protection.

On the trail of an expert plant intruder

It is primarily a novel protein complex on the cell surface that turns Ustilago maydis into a plant pathogen, as a research team led by Regine Kahmann has been able to show. This key role makes the complex an ideal target for future developments in plant protection.

The Director Emerita of the MPI is among 30 foreign members elected this year in recognition of their distinguished and continuing achievements in original research.

Regine Kahmann elected to the National Academy of Sciences

The Director Emerita of the MPI is among 30 foreign members elected this year in recognition of their distinguished and continuing achievements in original research.

We are happy to announce that our MPI director Tobias Erb is among the 64 newly elected members of the European Molecular Biology Organzation (EMBO).

Tobias Erb elected as EMBO Member

We are happy to announce that our MPI director Tobias Erb is among the 64 newly elected members of the European Molecular Biology Organzation (EMBO).

The aim of our research is to understand the diversity and function of microorganisms. They are more numerous and diverse than all other living organisms – there is no place on earth they do not colonize. There are mainly three main reasons for their success: their immense metabolic capacities, a great ability to adapt to environmental changes, and a wide range of interactions with other organisms. Whether by their indispensable role in the global cycles of matter, the conversion of atmospheric greenhouse gases or their numerous interactions with humans, animals and plants - microorganisms decisively shape life on earth.
Like all of the over 80 Max Planck Institutes, we conduct basic research, true to Max Planck`s saying: "Insight must precede application." A fundamental understanding of processes and interrelationships is prerequisite for any medical or technological innovation. We use state-of-the-art technologies in combination with computer modeling and analysis as well as synthetic biology methods.

Welcome to the
Max Planck Institute for Terrestrial Microbiology

The aim of our research is to understand the diversity and function of microorganisms. They are more numerous and diverse than all other living organisms – there is no place on earth they do not colonize. There are mainly three main reasons for their success: their immense metabolic capacities, a great ability to adapt to environmental changes, and a wide range of interactions with other organisms. Whether by their indispensable role in the global cycles of matter, the conversion of atmospheric greenhouse gases or their numerous interactions with humans, animals and plants - microorganisms decisively shape life on earth.

Like all of the over 80 Max Planck Institutes, we conduct basic research, true to Max Planck`s saying: "Insight must precede application." A fundamental understanding of processes and interrelationships is prerequisite for any medical or technological innovation. We use state-of-the-art technologies in combination with computer modeling and analysis as well as synthetic biology methods.

Tobias J. Erb

Lotte Søgaard-Andersen

Lotte Søgaard-Andersen

Helge B. Bode

Victor Sourjik

Emeriti

Knut Drescher

Katharina Höfer

Katharina Höfer

Georg Hochberg

Henrike Niederholtmeyer

Henrike Niederholtmeyer

Gert Bange

Ilka Bischofs-Pfeifer

Ilka Bischofs-Pfeifer

Werner Liesack

Andreas Brune

Seigo Shima

Martin Thanbichler

Martin Thanbichler

Seán Murray

Former Group Leaders

Former Group Leaders

Johannes Rebelein

Johannes Rebelein

Core Facilities

Core Facilities

Andreas Diepold

Andreas Diepold

June 2021

Dr. Tomasz Turowski

at 16:00

A biophysical approach to RNA transcription

Graduate Students Mini Symposium IV 2021

at 16:00

Prof. Dr. Ruth Schmitz-Streit

at 16:00

Small but effective! Newly identified players in nitrogen regulation in Methanosarcina mazei

upcoming Seminars & Events

Prof. Dr. Ruth Schmitz-Streit

Small but effective! Newly identified players in nitrogen regulation in Methanosarcina mazei

Jun 21, 2021 16:00

Zoom

Sanika Vaidya

Bacterial Danger-Sensing Protects Against Bacteriophage Predation

Jul 2, 2021 15:00

Online

Graduate Students Mini Symposium V 2021

Sep 6, 2021 16:00

Online, Room: -

Graduate Students Mini Symposium VI 2021

Sep 27, 2021 16:00

Online

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