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Max Planck Institute for Terrestrial Microbiology

The TaCo pathway, developed by a research team from our department of Biochemistry and Synthetic Metabolism, is a synthetic photorespiratory bypass that opens up new possibilities for CO2 fixation and the production of value-added compounds.

Let`s take a detour!

The TaCo pathway, developed by a research team from our department of Biochemistry and Synthetic Metabolism, is a synthetic photorespiratory bypass that opens up new possibilities for CO₂ fixation and the production of value-added compounds.

How do bacteria communicate with human inflammatory cells? This topic is the center of the new LOEWE focus "Diffusible Signals" (Impact of diffusible signals at human cell-microbe interfaces).

Understanding in order to heal - investigating bacterial communication

How do bacteria communicate with human inflammatory cells? This topic is the center of the new LOEWE focus "Diffusible Signals" (Impact of diffusible signals at human cell-microbe interfaces).

Complex protein structures can persist in nature over evolutionary periods even if they have no function. The reason for this is a universal mechanism that, like a ratchet, prevents them from slipping back into earlier states. Group leader Dr. Georg Hochberg is the first author of a study that has now been published in the latest issue of the journal "Nature".

Molecular time travel

Complex protein structures can persist in nature over evolutionary periods even if they have no function. The reason for this is a universal mechanism that, like a ratchet, prevents them from slipping back into earlier states. Group leader Dr. Georg Hochberg is the first author of a study that has now been published in the latest issue of the journal "Nature".

The International Max Planck Research School (IMPRS) in Marburg is being extended for another six years. The submission of applications opens on December 1, 2020 and runs until January 31, 2021.

Our Graduate School enters the next stage

The International Max Planck Research School (IMPRS) in Marburg is being extended for another six years. The submission of applications opens on December 1, 2020 and runs until January 31, 2021.

Metabolic networks are complex and their regulation is daunting. A team of researchers at the MPI led by Dr. Hannes Link showed that massively parallel CRISPRi screens can conquer this complexity.

Tackling Metabolic Complexity

Metabolic networks are complex and their regulation is daunting. A team of researchers at the MPI led by Dr. Hannes Link showed that massively parallel CRISPRi screens can conquer this complexity.

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 the other over 80 Max Planck Institutes, we conduct basic research, because, as Max Planck said: "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 the other over 80 Max Planck Institutes, we conduct basic research, because, as Max Planck said: "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

Come and join us!

Come and join us!

Knut Drescher

Henrike Niederholtmeyer

Henrike Niederholtmeyer

Georg Hochberg

Katharina Höfer

Katharina Höfer

Emeriti

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

January 2021

Kyra Geyer

at 15:00

Biochemical Characterization of the Phoslactomycin modular Polyketidesynthase

Dr. Markus Jeschek

at 16:00

Teaching an old dog new trick - engineering E. coli for new-to-nature metabolism

Viktoria Reithofer

at 13:00

Structural Proteomics of the Fungal Cell Wall

Francisco Javier Díaz Pascual

at 15:00

Architecture, spatial metabolism and stress response of bacterial biofilms

upcoming Seminars & Events

Dr. Markus Jeschek

Teaching an old dog new trick - engineering E. coli for new-to-nature metabolism

Jan 25, 2021 16:00

Zoom

Viktoria Reithofer

Structural Proteomics of the Fungal Cell Wall

Jan 26, 2021 13:00

Online

Francisco Javier Díaz Pascual

Architecture, spatial metabolism and stress response of bacterial biofilms

Jan 29, 2021 15:00

Online

Graduate Students Mini Symposium I 2021

Feb 1, 2021 16:00

Online, Room: -

Dr. Mary Dunlop

Dynamics, Feedback, and Transient Antibiotic Resistance in Single Cells

Feb 8, 2021 16:00

Zoom

News

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Seminars & Events

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