• Welcome to the GMI

    JOIN US — We are constantly looking for people with big ideas, who would enjoy and augment the intellectual freedom we provide. If this appeals to you, get in touch — contact any group leader.

    Open Positions
  • Welcome to the GMI

    JOIN US — We are constantly looking for people with big ideas, who would enjoy and augment the intellectual freedom we provide. If this appeals to you, get in touch — contact any group leader.

    Open Positions
  • Welcome to the GMI

    JOIN US — We are constantly looking for people with big ideas, who would enjoy and augment the intellectual freedom we provide. If this appeals to you, get in touch — contact any group leader.

    Open Positions

JOIN US — We are constantly looking for people with big ideas, who would enjoy and augment the intellectual freedom we provide. If this appeals to you, get in touch — contact any group leader.

Open Positions

Our Mission

The GMI is a research institute devoted to plant biology. Plants created our atmosphere and sustain life on earth. Our goal is to make fundamental discoveries that help us understand how plants function — discoveries that may be essential to address global challenges like climate change. Our research ranges from molecules to ecosystems, involving a wide variety of plants — all depending on the question. We study photosynthesis in unicellular alga, and climate adaptation in coniferous trees. We believe in enabling researchers at all levels to pursue big questions in an intellectually stimulating, diverse, and collaborative environment. Key to our success is minimal hierarchy and bureaucracy, outstanding facilities, and core funding.

Microscopy image of an Arabidopsis flower bud. In green, stem cell nuclei. In magenta, a cytoplasmic marker for the epidermal layer. ©Bradamante/Mittelsten Scheid/GMI

About us

The GMI is part of the Vienna BioCenter, a leading life science cluster, comprising several research institutes, universities, and start-up companies, located close to the center of Vienna. The institute is owned and funded by the Austrian Academy of Sciences (ÖAW). Research topics include basic mechanisms of epigenetics, cell biology, plant-pathogen interactions, developmental biology, and population genetics. The GMI provides a lively, international working environment with around 130 people, embedded in a campus with over 1700 people from more than 70 countries. The working language is English. We strive for a friendly, inclusive environment, and provide an on-campus child care center.

Latest Research

When mothers shut down the fathers’ genes in the embryo

In humans, and many other species, both genes inherited from the mother and from the father influence how embryos develop. In the…

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How a harmful fungus renders its host plant defenseless

The fungus Ustilago maydis attacks corn and can cause significant damage to its host. To do this, it first ensures that the plant…

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GMI scientists inaugurate The Plant Cell’s Mendel celebrations

The journal The Plant Cell joins the celebrations of the 200th birthday anniversary of the “Father of genetics” with a series of…

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How the first roots developed more than 400 million years ago

A plant fossil from a geological formation in Scotland sheds light on the development of the earliest known form of roots. A team led…

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FURTHER NEWS

GMI's International Internship Program Welcomes Early Career Researchers

Program interns highlight the importance of minimal hierarchy, human connection, and purpose-driven work.

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Happy Birthday, Gregor Mendel

GMI celebrates Gregor Mendel Bicentennial with Lecture by Nobel Laureate Sir Paul Nurse

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GMI Celebrates The Long Night of Research

The Future of Biology on View at the Austrian Academy of Sciences

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Our PhD Candidates and Postdocs are now portrayed on the GMI website

The Gregor Mendel Institute now portrays its Early Career Researchers (ECRs) on the website.

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New President for Austrian Academy of Sciences

The Gregor Mendel Institute of Molecular Plant Biology (GMI) congratulates Heinz Faßmann, recently elected president of the Austrian Academy of Sciences.

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EVENTS

Sep
28
11:00

Modeling human hematopoiesis, disease and even human organs in NextGEN humanized mice

Speaker: Richard Flavell
Type: Max Birnstiel Lecture
Location: IMP Lecture Hall
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Sep
29
11:00

Mechanisms of folding and assembly of newly synthesized proteins

Speaker: Bernd Bukau
Type: VBC Regular Seminar
Location: IMBA/GMI Lecture Hall
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Sep
29
14:00

Establishment and Protection of Formative Pluripotency

Speaker: Merrit Romeike
Type: PhD Defense
Location: MFPL main building, 6th floor SR1/2
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Sep
29
15:00

Next Generation of 3D Cell Culture, Magnetic 3D Cell Culture and Bioprinting

Speaker: Glauco Souza
Type: Impromptu Seminar
Location: IMP Seminar Room 1.014
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Sep
30
10:00

Human stem cell models to study host-virus interactions in the brain

Speaker: Oliver Harschnitz
Type: Max Perutz Labs Impromptu Semi
Location: VBC5 Lecture Hall A+B
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PUBLICATIONS

Xu J, Wang Q, Wang S, et al. (2022) Comparative genomics of Sarcoptes scabiei provide new insights into adaptation to permanent parasitism and within-host species divergence. Transbound Emerg Dis [epub].

McWhite CD, Sae-Lee W, Yuan Y, et al. (2022) Alternative proteoforms and proteoform-dependent assemblies in humans and plants. bioRxiv:2022.09.21.508930.

Casey C, Köcher T, Champion C, et al. (2022) Reduced coenzyme Q synthesis confers non-target site resistance to the herbicide thaxtomin A. bioRxiv:2022.09.13.507736.

Sasaki E, Gunis J, Reichardt-Gomez I, et al. (2022) Conditional GWAS of non-CG transposon methylation in Arabidopsis thaliana reveals major polymorphisms in five genes. PLoS Gene 18(9):e1010345 preprint bioRxiv:2022.02.09.479810.

Zheng R, Stejskal K, Pynn C, et al. (2022) Deep Single-Shot NanoLC-MS Proteome Profiling with a 1500 Bar UHPLC System, Long Fully Porous Columns, and HRAM MS. J Proteome Res [epub].

Mayer RL, Matzinger M, Schmücker A, et al. (2022) Wide Window Acquisition and AI-based data analysis to reach deep proteome coverage for a wide sample range, including single cell proteomic inputs. bioRxiv:2022.09.01.506203.

Casey A, Köcher T, Caygill S, et al. (2022) Transcriptome changes in chlorsulfuron-treated plants are caused by acetolactate synthase inhibition and not induction of a herbicide detoxification system in Marchantia polymorpha. bioRxiv:2022.08.31.505973.

Korvigo I, Igolkina AA, Kichko AA, et al. (2022) Be aware of the allele-specific bias and compositional effects in multi-template PCR. PeerJ 10:e13888.

Vedanayagam J, Lin C, Papareddy R, et al. (2022) Endogenous RNAi silences a burgeoning sex chromosome arms race. bioRxiv:2022.08.22.504821.

Aflaki F, Gutzat R, Mozgová I (2022) Chromatin during plant regeneration: Opening towards root identity? Curr Opin Plant Biol 69:102265.

Bowman JL, Arteaga-Vazquez M, Berger F, et al. (2022) The Renaissance and Enlightenment of Marchantia as a model system. Plant Cell [epub].

Nguyen V and Gutzat R (2022) Epigenetic regulation in the shoot apical meristem. Curr Opin Plant Biol 69:102267.

Casey A and Dolan L (2022) Genes encoding cytochrome P450 monooxygenases and glutathione S-transferases associated with herbicide resistance evolved before the origin of land plants. bioRxiv:2022.08.12.503801.

Bindics J, Khan M, Uhse S, et al. (2022) Many ways to TOPLESS - manipulation of plant auxin signalling by a cluster of fungal effectors. New Phytol [epub].

Tanasa S, Shukla N, Cairo A, et al. (2022) A complex role of Arabidopsis CDKD;3 in meiotic progression and cytokinesis. bioRxiv:2022.08.08.503215.

Cairo A, Vargova A, Shukla N, et al. (2022) Meiotic exit in Arabidopsis is driven by P-body-mediated inhibition of translation. Science 377(6606).

Butkovic A, Ellis TJ, González R, et al. (2022) A globally distributed major virus-resistance association in Arabidopsis thaliana. bioRxiv:2022.08.02.502433.

Platre MP, Satbhai S, Brent L, et al. (2022) The receptor kinase SRF3 coordinates iron-level and flagellin dependent defense and growth responses in plants. Nat Commun 13(1):4445 preprint bioRxiv:2021.04.26.441470.

Clauw P, Kerdaffrec E, Gunis J, et al. (2022) Locally adaptive temperature response of vegetative growth in Arabidopsis thaliana. Elife 11:e77913 preprint bioRxiv:2022.02.15.480488.

Brachi B, Filiault D, Whitehurst H, et al. (2022) Plant genetic effects on microbial hubs impact host fitness in repeated field trials. Proc Natl Acad Sci USA 119(30):e2201285119 preprint bioRxiv:181198.

The GMI is part of the Vienna BioCenter, one of the leading international life science research centers worldwide that has established itself as the premier location for life sciences in Central Europe.

viennabiocenter.org