• 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

Dissecting the forces that govern epigenetic memory

The model plant Arabidopsis thaliana shows a striking natural variation in a key epigenetic marker. Researchers from the Nordborg…

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The dual face of photoreceptors during seed germination

Seed germination depends on light in many plants. But not always: Aethionema arabicum, a plant adapted to challenging environmental…

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Autophagy: The molecular regulation of self-eating

Autophagy, or “self-eating”, is an essential cellular quality control mechanism that clears the cell of protein aggregates and…

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Bryophytes branch differently… also at the molecular level

Non-vascular bryophytes live in colonies that cover the ground and resemble tiny forests. In a real forest, plants compete for light…

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FURTHER NEWS

Scientific Research Career Paths Are Not Always Direct, Researchers Share At Vienna Girls' Day

During a region-wide event on April 27, GMI welcomed a cohort of female secondary school students from Vienna to learn about career paths for professions in the natural sciences.

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Proteome Pioneer Award for Karl Mechtler

Karl Mechtler, Head of the Proteomics Tech Hub at IMP, IMBA, and GMI, is the first Austrian scientist to receive the prestigious Juan Pablo Albar Proteome Pioneer Award from the European Proteomics Association.

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Yasin Dagdas elected to the OeAW’s Young Academy

Yasin Dagdas, group leader at the Gregor Mendel Institute of Molecular Plant Biology (GMI) of the Austrian Academy of Sciences (OeAW), is a newly elected member of the OeAW’s Young Academy. With its excellent young researchers from all disciplines, the Young Academy is one of the pillars supporting…

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Farewell & thanks to Ortrun Mittelsten Scheid

At the end of March, Ortrun Mittelsten Scheid will retire from GMI.

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EVENTS

Jun
01
12:00

Structural guided nanobodies against covid19 and tomography in a box

Speaker: Jim Naismith
Type: Seminar Series on Modern Conce
Location: VBC5 Lecture Hall A+B/Zoom
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Jun
02
08:00

Probing chromosome mechanics in the interphase nucleus

Speaker: Antoine Coulon
Type: Impromptu Seminar
Location: GMI Orange Seminar Room
Read more
Jun
02
09:30

The Birth and Death of Macromolecular Complexes in Eukaryotic Evolution

Speaker: Berend Snel
Type: GMI Seminar
Location: GMI Orange Seminar Room
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Jun
05
12:00

Monday Seminar (Internal)

Speaker: JONASSON Mattias (Tanaka), HOHMANN Ulrich (Brennecke/Plaschka), MANOLOVA Toni (Falk)
Type: Monday Seminar
Location: IMP Lecture Hall
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PUBLICATIONS

Weiszmann J, Walther D, Clauw P, et al. (2023)  Metabolome plasticity in 241 Arabidopsis thaliana accessions reveals evolutionary cold adaptation processes. Plant Physiol [epub] preprint bioRxiv:2020.09.24.311092.

Mulvey H and Dolan L (2023) ROP GTPase regulates polarised cell growth and cell division orientation during tissue development and organogenesis in Marchantia polymorpha. bioRxiv:2023.05.23.541913.

Lorkovic ZJ, Klingenbrunner M, Cho CH, et al. (2023) Co-evolution of functional motifs and H2A.X in the context of DNA damage response identifies the plant Mediator of DNA Damage Checkpoint 1. bioRxiv:2023.05.19.541430.

Montgomery S and Berger F (2023) Epigenetic reprogramming of imprinting at meiosis. bioRxiv:2023.05.17.541143.

Zdrzałek R, Stone C, De la Concepcion JC, et al. (2023) Pathways to engineering plant intracellular NLR immune receptors. Curr Opin Plant Biol 74:102380.

Pisupati R, Nizhynska V, Morales AM, et al. (2023) On the Causes of Gene-Body Methylation Variation in Arabidopsis thaliana. PLoS Genet 19(5):e1010728 preprint bioRxiv:2022.12.04.519028.

Zheng R, Matzinger M, Mayer RL, et al. (2023) A high-sensitivity low-nanoflow LC-MS configuration for high-throughput sample-limited proteomics. bioRxiv:2023.04.27.538542.

Vainonen JP, Gossens R, Krasensky-Wrzaczek J, et al. (2023) Poly(ADP-ribose)-binding protein RCD1 is a plant PARylation reader regulated by Photoregulatory Protein Kinases. Commun Biol 6(1):429.

Kersten S, Chang J, Huber CD, et al. (2023) Standing genetic variation fuels rapid evolution of herbicide resistance in blackgrass. Proc Natl Acad Sci USA 120(16):e2206808120 preprint bioRxiv:2021.12.14.472587.

Zeng Y, Li B, Huang S, et al. (2023) The plant unique ESCRT component FREE1 regulates autophagosome closure. Nat Commun 14(1):1768.

Sidhaye J, Trepte P, Sepke N, et al. (2023) Integrated transcriptome and proteome analysis reveals posttranscriptional regulation of ribosomal genes in human brain organoids. Elife 12:e85135.

Durut N, Kornienko AE, Schmidt HA, et al. (2023) Long non-coding RNAs contribute to DNA damage resistance in Arabidopsis thaliana. bioRxiv:2023.03.20.533408

Zhou X, Wang L, Zhu P, et al.(2023) Comprehensive molecular characterization of complete mitogenome assemblies of 33 Eimeria isolates infecting domestic chickens. Parasit Vectors 16(1):109.

Feng C, Roitinger E, Hudecz O, et al. (2023) TurboID-based proteomic profiling of meiotic chromosome axes in Arabidopsis thaliana. Nat Plants 9(4):616-30.

Kornienko AE, Nizhynska V, Molla Morales A, et al. (2023) Population-level annotation of lncRNAs in Arabidopsis thaliana reveals extensive expression and epigenetic variability associated with TE-like silencing. bioRxiv:2023.03.14.532599.

Lebovka I, Hay Mele B, Liu X, et al. (2023) Computational modelling of cambium activity provides a regulatory framework for simulating radial plant growth. Elife 12:e66627.

Jaegle B, Soto-Jiménez LM, Burns R, et al. (2023) Extensive sequence duplication in Arabidopsis revealed by pseudo-heterozygosity.  Genome Biol 24(1):44 preprint bioRxiv:2021.11.15.468652.

Jamge B, Lorkovic ZJ, Axelsson E, et al. (2023) Histone variants shape the chromatin states in Arabidopsis. bioRxiv:2023.03.08.531698.

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