Informace o projektu
iNEXT-Discovery: Infrastructure for transnational access and discovery in integrated structural biology (iNEXT- Discovery)

Informace

Projekt nespadá pod Přírodovědeckou fakultu, ale pod Středoevropský technologický institut. Oficiální stránka projektu je na webu muni.cz.

Kód projektu

871037

Období řešení

2/2020 - 7/2024

Investor / Programový rámec / typ projektu

Evropská unie

Horizon 2020
RI Research Infrastructures (Excellent Science)

Fakulta / Pracoviště MU

Středoevropský technologický institut

Spolupracující organizace

University of Leeds
Centre National de la Recherche Scientifique
Johann Wolfgang Goethe-Universität
Aarhus Universitet
Eötvös Loránd University
Universiteit Leiden
Universidade Nova de Lisboa
Lunds Universitet
Universiteit Utrecht
The Netherlands Cancer Institute

Odpovědná osoba Anastassis Perrakis

Vilnius University
Agencia Estatal Consejo Superior
EATRIS ERIC
Instruct ERIC
Consorzio Interuniversitario Risonanze Magnetich/di Metallo Proteine (C.I.R.M.M.P.)
EU-OPENSCREEN ERIC
EMBL ¨(EUROPEAN MOLECULAR BIOLOGY LABORATORY)

iNEXT-Discovery, a novel infrastructure for NMR, Electron microscopy (EM) and X-rays for Translational research (iNEXT) will enable the Discovery of new pharmaceuticals, biologics, materials, biofuels, food formulations, and other tools that European scientists can envisage, and that we can help to bring to reality. The iNEXT-Discovery builds on the success of iNEXT, taking it further by enabling more efficient and new cutting-edge structural biology access to users, facilitating for instance fragment-based drug discovery campaigns, the structure determination of large molecular machines, the observation of molecular structures and dynamics within cells, and numerous more applications by the wider user community. iNEXT-Discovery aims to fully release the enormous potential of advanced instruments and top-notch scientific expertise from leading European research infrastructures for structural biology, making it available across scientific disciplines and all across Europe. This main objective will be realised by the coordinated offering of access to the existing structural biology community, but crucially also to user communities that have been less exposed to these facilities. The rich and energetic research environment that is available at all partner sites catalyses the four joint research activities within the iNEXT-Discovery project. We aim to further consolidate a strong structural biology presence in drug discovery pipelines by streamlining fragment based drug discovery pipelines, by high-throughput delivery of samples to maximise the efficiency of user access in our facilities, on offering novel scientific opportunities for following molecules in time, and on developing more efficient tools and procedures to analyse structures in situ within cells. All the iNEXT-Discovery JRAs aim to improve structural biology technology. Also, we will embrace a strong focus on the digitalisation and automation of structural biology services. Together, our JRAs will strongly improve the access provision of the offered technologies to facility users, both novice and experienced.

Cíle udržitelného rozvoje

Masarykova univerzita se hlásí k cílům udržitelného rozvoje OSN, jejichž záměrem je do roku 2030 zlepšit podmínky a kvalitu života na naší planetě.

Publikace

Počet publikací: 8

2024

In-cell NMR suggests that DNA i-motif levels are strongly depleted in living human cells

VÍŠKOVÁ Pavlína IŠTVÁNKOVÁ Eva RYNEŠ Jan DŽATKO Šimon LOJA Tomáš LENARČIČ ŽIVKOVIC Martina RIGO Riccardo EL-KHOURY Roberto SERRANO-CHACON Israel DAMHA Masad J GONZALEZ Carlos MERGNY Jean-Louis TRANTÍRKOVÁ Silvie TRANTÍREK Lukáš

Článek v odborném periodiku

Nature Communications, rok: 2024, ročník: 15, vydání: 1, DOI

2023

A thermosensitive gel matrix for bioreactor-assisted in-cell NMR of nucleic acids and proteins

DZUROV Matej POSPÍŠILOVÁ Šárka KRAFČÍKOVÁ Michaela TRANTÍREK Lukáš VOJTOVÁ Lucy RYNEŠ Jan

Článek v odborném periodiku

Journal of biomolecular NMR, rok: 2023, ročník: 77, vydání: 5-6, DOI
Structural basis for different membrane-binding properties of<i> E.</i><i> coli</i> anaerobic and human mitochondrial 8-oxidation trifunctional enzymes

SAH-TELI Shiv K PINKAS Matyáš HYNONEN Mikko J BUTCHER Sarah J WIERENGA Rik K NOVÁČEK Jiří VENKATESAN Rajaram

Článek v odborném periodiku

Structure, rok: 2023, ročník: 31, vydání: 7, DOI
Structural conservation of antibiotic interaction with ribosomes

PATERNOGA Helge CROWE-MCAULIFFE Caillan BOCK Lars V KOLLER Timm O MORICI Martino BECKERT Bertrand MYASNIKOV Alexander G GRUBMUELLER Helmut NOVÁČEK Jiří WILSON Daniel N

Článek v odborném periodiku

NATURE STRUCTURAL & MOLECULAR BIOLOGY, rok: 2023, ročník: 30, vydání: 9, DOI
Structure of the Borrelia Bacteriophage uBB1 Procapsid

RUMNIEKS Janis FÜZIK Tibor TARS Kaspars

Článek v odborném periodiku

Journal of Molecular Biology, rok: 2023, ročník: 435, vydání: 24, DOI

2021

In-Cell NMR Spectroscopy of Functional Riboswitch Aptamers in Eukaryotic Cells

BROFT P. DŽATKO Šimon KRAFČÍKOVÁ Michaela WACKER A. HANSEL-HERTSCH Robert DOTSCH Volker TRANTÍREK Lukáš SCHWALBE Harald

Článek v odborném periodiku

Angewandte Chemie International Edition, rok: 2021, ročník: 60, vydání: 2, DOI
Investigation of the structure and dynamics of gallium binding to high-affinity peptides elucidated by multi-scale simulation, quantum chemistry, NMR and ITC dagger

TAYLOR C. SCHONBERGER N. LANÍKOVÁ Alice PATZSCHKE M. DROBOT B. ŽÍDEK Lukáš LEDERER F.

Článek v odborném periodiku

Physical Chemistry Chemical Physics, rok: 2021, ročník: 23, vydání: 14, DOI

2019

iNEXT workshop on Integrated methodologies and approaches for structural biology

SKLENÁŘ Vladimír

Uspořádání workshopu

Rok: 2019, druh: Uspořádání workshopu