ERC Starting Grant for four researchers of the Faculty of Science and Engineering

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Dr. Marcos Guimarães, Dr. Julia Kamenz, Dr. Sandy Schmidt and Prof. Marthe Walvoort have received an ERC Starting Grant worth EUR 1.5 million from the European Research Council. They receive this grant for research into joining light and magnetism at the nanoscale; the molecular mechanism of the cell cycle clock; enzymes for novel nitrogen-nitrogen bond forming reactions and the impact of bacterial glycoproteins on the process of bacterial adhesion and infection.

With the Starting Grant, all four can set up their own research team to conduct research for five years.

Dr. Marcos Guimarães | photo: Sylvia Germes Dr. Marcos Guimarães | photo: Sylvia Germes

Dr. Marcos Guimarães (Zernike Institute) | 2D-OPTOSPIN: Joining light and magnetism at the nanoscale

The fast development of modern information technology requires smaller devices consuming less energy. Magnetism provides an excellent route for energy-efficient devices, such as hard-disk drives, but they are often slow. Moreover, magnetic information has to be converted into electric currents for it to be transmitted, leading to more power consumption. In this project, Guimarães will use atomically-thin two-dimensional materials to combine highly-efficient magnetic devices with optical communication. Specifically, he will integrate magnetic devices with a laser that can convert magnetic information into optical information, i.e. light polarization. This project will pave the way for new generations of information technologies, addressing fundamental aspects along the way.

Dr. Julia Kamenz Dr. Julia Kamenz

Dr. Julia Kamenz (GBB) | Cell cycle in vitro

Life on earth is rhythmic - from our heartbeat, to the day-night cycle, to the oscillations in animal populations. But what actually drives these clock-like behaviors? In this ERC project, Julia Kamenz will dissect the molecular mechanism of one of the most fundamental biological clocks: the cell cycle clock, which underlies and drives cell divisions. Errors during cell division can be detrimental and cause diseases, such as cancer. Kamenz will take a novel, engineering-inspired approach. Like a watchmaker, she plans to isolate the individual parts of the cell cycle machinery and systematically assemble them into a ‘ticking’ cell cycle clock. This approach will allow her to reveal the intricate interactions between each of the parts, providing novel insights into the biochemistry of cell division and contribute to the understanding of cell cycle regulation.

Dr. Sandy Schmidt Dr. Sandy Schmidt

Dr. Sandy Schmidt (GRIP) | RECNNSTRCT

In the RECNNSTRCT project, Sandy Schmidt will reconstruct enzymes for novel nitrogen-nitrogen bond forming chemistry. Compounds containing nitrogen-nitrogen (N-N) bonds are highly important and frequently found in diverse pharmaceuticals, dyes, agrochemicals, synthetic materials, and cosmetics. However, traditional chemical procedures to synthesize these N-N bond-containing compounds are often difficult to realize, costly and environmentally unfriendly. Therefore, Schmidt aims to develop novel enzymes that can form these important N-N bond containing compounds in a more sustainable way, while tackling reactions that are difficult to realize by traditional chemical approaches and currently not feasible by enzyme catalysis. As such, RECNNSTRCT aims to substantially contribute to a greener chemical industry.

Prof. Marthe Walvoort Prof. Marthe Walvoort

Prof. Marthe Walvoort (Stratingh) | STICKY SUGARS

In the STICKY SUGARS project, Marthe Walvoort will investigate the impact of bacterial glycoproteins on the process of bacterial adhesion and infection. Using the power of chemistry and enzymes, she will develop novel techniques to directly visualize the sugars on the outside of bacteria. In collaboration with researchers from the Groningen Biomolecular Sciences and Biotechnology Institute (GBB) and the University Medical Center Groningen (UMCG), she will also unravel the contribution of these sugars to bacterial infection. This project will lead to inspiring ideas in the field of novel antibacterial therapies based on attacking bacterial sugars.

ERC grants

ERC Starting Grants are awarded to early-career researchers with two to seven years of experience since completion of the PhD and a scientific track record showing great promise. The funding is provided for up to five years and will help individual scientists to build their own research teams and conduct pioneering research.

The European Research Council offers four core grant schemes: Starting, Consolidator, Advanced and Synergy Grants.

Periode22-nov.-2022

Media-aandacht

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Media-aandacht

  • TitelERC Starting Grant for four researchers of the Faculty of Science and Engineering
    Mate van erkenningInternational
    Media naam/outletNews - University of Groningen
    MediatypeWeb
    Land/RegioNetherlands
    Release datum22/11/2022
    BeschrijvingDr. Marcos Guimarães, Dr. Julia Kamenz, Dr. Sandy Schmidt and Prof. Marthe Walvoort have received an ERC Starting Grant worth EUR 1.5 million from the European Research Council. They receive this grant for research into joining light and magnetism at the nanoscale; the molecular mechanism of the cell cycle clock; enzymes for novel nitrogen-nitrogen bond forming reactions and the impact of bacterial glycoproteins on the process of bacterial adhesion and infection.

    With the Starting Grant, all four can set up their own research team to conduct research for five years.

    Dr. Marcos Guimarães | photo: Sylvia Germes
    Dr. Marcos Guimarães | photo: Sylvia Germes
    Dr. Marcos Guimarães (Zernike Institute) | 2D-OPTOSPIN: Joining light and magnetism at the nanoscale
    The fast development of modern information technology requires smaller devices consuming less energy. Magnetism provides an excellent route for energy-efficient devices, such as hard-disk drives, but they are often slow. Moreover, magnetic information has to be converted into electric currents for it to be transmitted, leading to more power consumption. In this project, Guimarães will use atomically-thin two-dimensional materials to combine highly-efficient magnetic devices with optical communication. Specifically, he will integrate magnetic devices with a laser that can convert magnetic information into optical information, i.e. light polarization. This project will pave the way for new generations of information technologies, addressing fundamental aspects along the way.

    Dr. Julia Kamenz
    Dr. Julia Kamenz
    Dr. Julia Kamenz (GBB) | Cell cycle in vitro
    Life on earth is rhythmic - from our heartbeat, to the day-night cycle, to the oscillations in animal populations. But what actually drives these clock-like behaviors? In this ERC project, Julia Kamenz will dissect the molecular mechanism of one of the most fundamental biological clocks: the cell cycle clock, which underlies and drives cell divisions. Errors during cell division can be detrimental and cause diseases, such as cancer. Kamenz will take a novel, engineering-inspired approach. Like a watchmaker, she plans to isolate the individual parts of the cell cycle machinery and systematically assemble them into a ‘ticking’ cell cycle clock. This approach will allow her to reveal the intricate interactions between each of the parts, providing novel insights into the biochemistry of cell division and contribute to the understanding of cell cycle regulation.

    Dr. Sandy Schmidt
    Dr. Sandy Schmidt
    Dr. Sandy Schmidt (GRIP) | RECNNSTRCT
    In the RECNNSTRCT project, Sandy Schmidt will reconstruct enzymes for novel nitrogen-nitrogen bond forming chemistry. Compounds containing nitrogen-nitrogen (N-N) bonds are highly important and frequently found in diverse pharmaceuticals, dyes, agrochemicals, synthetic materials, and cosmetics. However, traditional chemical procedures to synthesize these N-N bond-containing compounds are often difficult to realize, costly and environmentally unfriendly. Therefore, Schmidt aims to develop novel enzymes that can form these important N-N bond containing compounds in a more sustainable way, while tackling reactions that are difficult to realize by traditional chemical approaches and currently not feasible by enzyme catalysis. As such, RECNNSTRCT aims to substantially contribute to a greener chemical industry.

    Prof. Marthe Walvoort
    Prof. Marthe Walvoort
    Prof. Marthe Walvoort (Stratingh) | STICKY SUGARS
    In the STICKY SUGARS project, Marthe Walvoort will investigate the impact of bacterial glycoproteins on the process of bacterial adhesion and infection. Using the power of chemistry and enzymes, she will develop novel techniques to directly visualize the sugars on the outside of bacteria. In collaboration with researchers from the Groningen Biomolecular Sciences and Biotechnology Institute (GBB) and the University Medical Center Groningen (UMCG), she will also unravel the contribution of these sugars to bacterial infection. This project will lead to inspiring ideas in the field of novel antibacterial therapies based on attacking bacterial sugars.

    ERC grants
    ERC Starting Grants are awarded to early-career researchers with two to seven years of experience since completion of the PhD and a scientific track record showing great promise. The funding is provided for up to five years and will help individual scientists to build their own research teams and conduct pioneering research.

    The European Research Council offers four core grant schemes: Starting, Consolidator, Advanced and Synergy Grants.
    Producent / auteurDaniek Gortmaker
    URLhttps://www.rug.nl/fse/news/erc-starting-grant-for-four-researchers-of-the-faculty-of-science-and-engineering
    PersonenJulia Kamenz