New interdisciplinary consortium at AU will study membrane-less organelles

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Description

Associate Professor Magnus Kjærgaard participates in a new consortium, BOUNDLESS, headed by Associate Professor Frans Mulder and funded by the Interdisciplinary Synergy Programme of the Novo Nordisk Foundation. With the grant of DKK 14.4 M, the consortium will study how membrane-less organelles control key biological processes.

The consortium, BOUNDLESS, has received DKK 14.4 M from the Novo Nordisk Foundation. The consortium consists of Frans Mulder, Lene N. Nejsum, and Magnus Kjærgaard from Aarhus University as well as Siewert Jan Marrink from University of Groningen (NL). (Photos: private)

Cells are divided into compartments that are specialized for different functions, like the different rooms in a house. Many cell compartments are separated by membranes as a physical boundary.

However, biology also uses compartments without membrane “walls”, so-called membrane-less organelles. Recently it has been discovered that this happens to a much greater extent than we knew.

Such organelles form when macromolecules self-assemble into droplets, like oil drops in a vinaigrette. These droplets of macromolecules can boost or quench biochemical reactions. They can control the diffusion of membrane-bounded vesicles, and therefore act as switches in signalling pathways in our cells.

The macromolecules in the droplets are unstructured, which may be the reason for the relatively little we know about how their function is controlled.

Will study how membrane-less organelles control key biological processes

The consortium, BOUNDLESS, consisting of Assoc. Prof. Frans Mulder, Department of Chemistry, Assoc. Prof. Lene N. Nejsum, Department of Clinical Medicine and Assoc. Prof. Magnus Kjærgaard, Department of Molecular Biology and Genetics, from Aarhus University as well as Professor and Director of Berendsen Center for Multiscale Modeling and Material Design, Siewert Jan Marrink from University of Groningen (NL), has received DKK 14.4 million from the Novo Nordisk Foundation through the Interdisciplinary Synergy Programme.

Mulder and the research team will study how membrane-less organelles control two key biological processes: signalling by kinases and transport of vesicles. These processes are crucial for our body’s ability to adapt to stimuli and their dysfunction leads to many human disorders. They will combine approaches drawn from physics, chemistry, molecular and cell biology to explain how organelles control the signalling that regulates the body’s water balance.

Understanding how these processes are affected by the droplets will pave the way for new classes of pharmaceuticals that modulate protein phase separation. Likewise, understanding how condensates affect enzymes holds great promise for the application of membrane-less organelles in biotechnology.

Project name:

BOUNDLESS Signalling in membrane-less organelles: A new phase in cellular biology

Project periode:

1 April 2021 – 30 September 2024 

Novo Nordisk Foundation - Interdisciplinary Synergy Programme

With the Interdisciplinary Synergy Programme, the Novo Nordisk Foundation seeks to support research projects across disciplines, organizations and national borders, in order to resolve novel interdisciplinary challenges in relation to the Foundation’s core science areas.

The goals of the research programme are:

  • Pursue creative and novel, high-risk/high-gain interdisciplinary research ideas
  • Provide long-term support of such novel interdisciplinary research ideas
  • Stimulate an emerging interdisciplinary research culture that spans across scientific disciplines and techniques
  • Break down or overcome the barriers that exist between the different disciplines
  • Strengthen and internationalize Danish research

You can read more about the programme here.

Period18-Jan-2021

Media coverage

1

Media coverage

  • TitleNew interdisciplinary consortium at AU will study membrane-less organelles
    Degree of recognitionInternational
    Media name/outletAarhus University, Denmark
    Media typeWeb
    CountryDenmark
    Date18/01/2021
    DescriptionAssociate Professor Magnus Kjærgaard participates in a new consortium, BOUNDLESS, headed by Associate Professor Frans Mulder and funded by the Interdisciplinary Synergy Programme of the Novo Nordisk Foundation. With the grant of DKK 14.4 M, the consortium will study how membrane-less organelles control key biological processes.

    The consortium, BOUNDLESS, has received DKK 14.4 M from the Novo Nordisk Foundation. The consortium consists of Frans Mulder, Lene N. Nejsum, and Magnus Kjærgaard from Aarhus University as well as Siewert Jan Marrink from University of Groningen (NL). (Photos: private)

    Cells are divided into compartments that are specialized for different functions, like the different rooms in a house. Many cell compartments are separated by membranes as a physical boundary.

    However, biology also uses compartments without membrane “walls”, so-called membrane-less organelles. Recently it has been discovered that this happens to a much greater extent than we knew.

    Such organelles form when macromolecules self-assemble into droplets, like oil drops in a vinaigrette. These droplets of macromolecules can boost or quench biochemical reactions. They can control the diffusion of membrane-bounded vesicles, and therefore act as switches in signalling pathways in our cells.

    The macromolecules in the droplets are unstructured, which may be the reason for the relatively little we know about how their function is controlled.

    Will study how membrane-less organelles control key biological processes

    The consortium, BOUNDLESS, consisting of Assoc. Prof. Frans Mulder, Department of Chemistry, Assoc. Prof. Lene N. Nejsum, Department of Clinical Medicine and Assoc. Prof. Magnus Kjærgaard, Department of Molecular Biology and Genetics, from Aarhus University as well as Professor and Director of Berendsen Center for Multiscale Modeling and Material Design, Siewert Jan Marrink from University of Groningen (NL), has received DKK 14.4 million from the Novo Nordisk Foundation through the Interdisciplinary Synergy Programme.

    Mulder and the research team will study how membrane-less organelles control two key biological processes: signalling by kinases and transport of vesicles. These processes are crucial for our body’s ability to adapt to stimuli and their dysfunction leads to many human disorders. They will combine approaches drawn from physics, chemistry, molecular and cell biology to explain how organelles control the signalling that regulates the body’s water balance.

    Understanding how these processes are affected by the droplets will pave the way for new classes of pharmaceuticals that modulate protein phase separation. Likewise, understanding how condensates affect enzymes holds great promise for the application of membrane-less organelles in biotechnology.

    Project name:

    BOUNDLESS Signalling in membrane-less organelles: A new phase in cellular biology

    Project periode:

    1 April 2021 – 30 September 2024

    Novo Nordisk Foundation - Interdisciplinary Synergy Programme

    With the Interdisciplinary Synergy Programme, the Novo Nordisk Foundation seeks to support research projects across disciplines, organizations and national borders, in order to resolve novel interdisciplinary challenges in relation to the Foundation’s core science areas.

    The goals of the research programme are:

    Pursue creative and novel, high-risk/high-gain interdisciplinary research ideas
    Provide long-term support of such novel interdisciplinary research ideas
    Stimulate an emerging interdisciplinary research culture that spans across scientific disciplines and techniques
    Break down or overcome the barriers that exist between the different disciplines
    Strengthen and internationalize Danish research
    You can read more about the programme here.
    Producer/AuthorLise Refstrup
    URLhttps://mbg.au.dk/en/news-and-events/news-item/artikel/nyt-tvaerfagligt-konsortium-ved-au-vil-undersoege-membranloese-organeller/
    PersonsSiewert Marrink

Keywords

  • Molecular Dynamics
  • Membrane-less organelles