Masaryk University, Czech Republic invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Masaryk University, Czech Republic.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD Candidate: Ribosomal complexes involved in human translation control
Are you passionate about studying human translation control? This is a perfect opportunity for you! Our research project focuses on investigating the structures of ribosomal complexes involved in this fascinating process.
You’ll have access to state-of-the-art cryo-EM instruments at our local core facility, available for regular use. Plus, comprehensive training in cryo-EM techniques will be provided to the successful candidate. Our lab has recently secured substantial third-party funding, including an ERC Starting Grant and an EMBO Installation Grant, so we’re well-equipped to support your research.
We’re seeking a creative, independent, and motivated individual with relevant experience in fields like structural biology, biochemistry, biophysics, or molecular biology. If you have a background in structural biology and translation, we especially encourage you to apply.
Deadline : 30 Sep 2025
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD Candidate/Student in Computational Quantum Chemistry
Do you have a passion for understanding the electronic structure of molecules? Join our team! We focus on the relationship between molecular/electronic structure and spectroscopic parameters, especially those in magnetic resonance. If you are interested in applied quantum chemistry with a focus on heavy element compounds, this is an ideal opportunity for you.
The Marek lab has access to state-of-the-art computational tools and cutting-edge NMR instruments at our local core facility, which are available for regular use. Our lab has secured third-party funding, so we are well equipped to support your research.
We are seeking a creative, independent, and motivated colleague with relevant experience in fields such as computational, theoretical or physical chemistry or chemical physics. Candidates with expertise in DFT or theoretical spectroscopy are particularly encouraged to apply.
Deadline : 31 Mar 2025
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(03) PhD Degree – Fully Funded
PhD position summary/title: PHD CANDIDATE/STUDENT IN STRUCTURAL BIOLOGY OF WNT SIGNALING
Applications are invited for the position in the research group of Konstantinos Tripsianes, Ph.D. Dishevelled (DVL) is the central hub of Wnt signal transduction that integrates and transduces upstream signals through distinct cytoplasmic cascades. Looking at the many DVL faces reported in literature, three salient features underlying its function in signaling can be highlighted: (1) it interacts with more than seventy binding partners, (2) it is heavily phosphorylated at multiple sites by at least eight different kinases, in particular by Ck1ε/δ after Wnt stimulation, and (3) it consistently forms puncta in the cytosol, that are phase-separated self-assemblies also called liquid droplets.
Our working hypothesis is that DVL conformational plasticity mediated by the order-disorder interactions allows the combinatorial integration of phosphorylation input, partners binding, self-assembly in droplets, and allosteric coupling, to exquisitely control signal routing. We integrate structural biology (NMR, SAXS, X-ray, MS-HDX) and biophysical techniques (FRET, ITC, BLI) with cellular readouts (TopFlash, BRET) to understand DVL structure, function, and regulation.
Deadline : 30 Apr 2025
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD Candidate/Student in effect of lipid asymmetry on membrane protein function
We’re excited to announce an open PhD student position in Robert Vacha’s Research Group!
Eukaryotic and prokaryotic plasma membranes exhibit inherent asymmetry, with distinct lipid compositions between the two leaflets. However, most studies to date have focused on symmetric bilayers. This project addresses this gap by integrating molecular dynamics simulations with experimental techniques such as solid-state NMR spectroscopy and scattering methods.
The primary aim is to elucidate the structural and dynamical properties of lipids in asymmetric membranes, particularly their interactions with integral membrane proteins, with an emphasis on bacterial lipid compositions. Initial step will involve determining lipid chain order parameters, bilayer structure, and lipid dynamics. Subsequently, lipid-protein interactions will be assessed, focusing on lipid-induced modulation of enzymatic activity in two bacterial proteins: OmpLA, a β-barrel protein, and GlpG, an α-helical transmembrane protein. The findings will offer key insights into the role of lipid asymmetry in biological membranes and its influence on membrane protein function, with potential applications in the development of lipid-targeted therapeutics and biosensors for pharmaceutical and biotechnological use.
Deadline : 31 Mar 2025
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD Candidate/Student in Design of fusogenic peptides
We’re excited to announce an open PhD student position in Robert Vacha’s Research Group!
Membrane fusion is an essential biological process that plays a crucial role in neurotransmission, intracellular trafficking, and immune responses. Despite its fundamental biological role and potential application in drug delivery, the molecular understanding of membrane fusion and its control remain elusive.
This ERC-funded project aims to the design of novel peptides and peptide aggregates able to induce spontaneous fusion. The peptides have been selected based on their biocompatibility and our exceptional experience with membrane-active peptides, including the design of de novo sequences based on the elucidated mechanism. The first step will be to develop a computational approach to determine the critical peptide properties required to destabilize or stabilize key fusion states: membrane stalk, hemifusion diaphragm, and fusion pore. These findings will then be used to de novo design peptide sequences where the fusogenic role of each amino acid is known, providing the key advantage for customization for vaccination and drug delivery. The computational results will be verified by fluorescence and electron microscopy.
Deadline : 31 Mar 2025
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About Masaryk University, Czech Republic- Official Website
Masaryk University (MU) is the second largest university in the Czech Republic, a member of the Compostela Group and the Utrecht Network. Founded in 1919 in Brno as the second Czech university (after Charles University established in 1348 and Palacký University existent in 1573–1860), it now consists of nine faculties and 35,115 students. It is named after Tomáš Garrigue Masaryk, the first president of an independent Czechoslovakia as well as the leader of the movement for a second Czech university.
In 1960 the university was renamed Jan Evangelista Purkyně University after Jan Evangelista Purkyně, a Czech biologist. In 1990, following the Velvet Revolution it regained its original name. Since 1922, over 171,000 students have graduated from the university.
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