Mgr. Irena Doubková
Konzultant programu
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Doktorské studium v prezenční nebo kombinované formě.
Program je možné studovat pouze jednooborově.
Cílem studia je vzdělávat studenty v oblasti věd o živé přírodě a připravovat je jako vysoce kvalifikované pracovníky pro vědeckou činnost. Úvodní část studia je vyhrazena prohloubení teoretických a praktických znalostí. Paralelně s tím probíhá zpracování samostatné literární rešerše k zadanému tématu doktorské disertace. Samotné těžiště činnosti studentů spočívá v jejich vlastní vědecké práci. Studenti jsou školitelem vedeni, aby byli schopni samostatně realizovat všechny fáze vědeckého projektu. Jsou též vedeni ke zpracování získaných experimentálních dat metodologicky relevantně, stejně tak k jejich interpretaci a následné prezentaci v různých formách. Program je vysoce multidisciplinární a ve srovnání s tradičním studiem biologie je více zaměřen metodologicky a analyticky. Díky přístupu ke špičkové infrastruktuře, mohou studenti lépe kombinovat různé biochemické, bioanalytické i vizualizační instrumentální techniky s řešením biologických problémů, což zvyšuje dopad jejich vědecké činnosti i následně jejich flexibilitu uplatnění na trhu práce včetně pozic v mimoakademické sféře, např. v rámci existujících biotechnologických firem či v nově vznikajících spin-off.
Koncepce programu reflektuje současnou úroveň poznatků vědy, potřeby trhu práce a celkové trendy v oboru. Současně těží ze systému podpory v rámci tzv. CEITEC PhD School, která představuje koncepci péče o doktorské studenty zapojené do výzkumných týmů v CEITECu a současně klade důraz na rozšíření kompetencí budoucích absolventů v socio-manažerských, technologických a přenositelných dovednostech. Ty jim umožní vést svou navazující výzkumnou činnost efektivním a moderním způsobem a poskytnou jim velmi dobrý přehled o etických aspektech výzkumu nezbytných pro bádání v oblasti živých věd a výzkumu a vývoji obecně.Life for Science. Science for Life.
Program cílí na mezinárodní uplatnění absolventů. Je připravován v české i anglické verzi, výuka většiny předmětů, všech seminářů a ve velké míře i výzkumná činnost probíhá v anglickém jazyce. Prostředí na CEITEC MU je významně mezinárodní, takže studenti jsou exponováni komunikaci v angličtině nejen při oficiální výuce, ale prakticky všude v rámci CEITEC.
Významným příspěvkem k osvojení praktických dovedností studentů DSP Vědy o živé přírodě je jejich přirozené zapojení do výzkumných týmů na CEITEC MU. Tím mohou studenti bezprostředně získávat potřebné praktické návyky pro řízení týmu a vědeckých projektů, osvojit si dovednosti navazování kontaktů a přímým zapojením do řešení výzkumných projektů a grantů (včetně projektů H2020 a ERC grantů) pochopit i problematiku financování výzkumu. Studenti mohou taktéž běžně využívat jedenácti unikátně vybavených sdílených laboratoří a získat touto formou významnou praktickou zkušenost v rámci tzv. interní stáže, případně v jiné instituci v ČR v rámci externí stáže (doporučený rozsah 10 pracovních dní (80 pracovních hodin).
Povinnou součástí studijních povinností v doktorském studijním programu je absolvování části studia na zahraniční instituci v délce nejméně jednoho měsíce, nebo účast na mezinárodním tvůrčím projektu s výsledky publikovanými nebo prezentovanými v zahraničí nebo jiná forma přímé účasti studenta na mezinárodní spolupráci.
V programu jsou podporovány Collaborative PhD, tj. absolvování doktorského projektu ve spolupráci s komerčním subjektem. Ty umožňují exponovat studenty více neakademickému prostředí. Také v rámci systému TAC dochází k častější spolupráci studentů s odborníky z praxe.
O doktorské studenty PřF MU se stará Oddělení pro doktorské studium, kvalitu, akademické záležitosti a internacionalizaci:
https://www.sci.muni.cz/student/phd
Na webové stránce oddělení najdete informace ke studiu:
ale také úřední hodiny, kontakty, aktuality, informace k rozvoji dovedností a ke stipendiím.
Podrobné informace k zahraničním stážím najdete na této webové stránce:
https://www.sci.muni.cz/student/phd/rozvoj-dovednosti/stay-abroad
V doktorském programu je kladen velký důraz na internacionalizaci, jsou zde také vytvářeny podmínky pro interdisciplinární řešení zadaných témat dizertačních prací a klade se důraz na posílení socio-manažerských a přenositelných dovedností. Tím se zvyšuje reálná šance absolventů na uplatnění ve špičkových vědeckých i technologických, akademických i komerčních týmech po celém světě, jako např. ve:
Údaje z předchozího přijímacího řízení (přihlášky 1. 9. – 31. 10. 2024)
Požadavky jsou podrobně specifikovány zde. Přijímací řízení probíhá ve dvou kolech. První kolo je založeno na posouzení přihlášky - přijímány a posuzovány budou pouze úplné přihlášky se všemi povinnými součástmi. Uchazeči vybraní do dalšího kola budou pozváni na přijímací pohovor s komisí.
Ribosome-associated quality control (RQC) is crucial for degrading truncated nascent proteins produced on aberrant mRNAs. Mutations in RQC components cause neurodegeneration both in animal models and human patients. Moreover, RQC insufficiency and subsequent protein aggregation critically contribute to proteostasis impairment and systemic decline during ageing. The successful candidate will utilize a multidisciplinary approach to provide detailed mechanistic understanding of the critical human RQC system in combination with an in vivo study to reveal processes leading to RQC-driven pathological changes in neural tissue. He/she will utilize human cell cultures, protein expression and purification techniques and biochemistry methods to produce samples for cryogenic electron microscopy (cryo-EM). Comprehensive training in cryo-EM will be available to the successful candidate. The candidate will also have a unique opportunity to acquire expertise in the use of C. elegans as a model organism during a research stay at a collaborating laboratory in Bolzano (Italy).
Requirements on candidates:
The ideal candidate should have a background in either molecular biology, biochemistry, or structural biology. Experience with human cell culture work or protein biochemistry is a plus.
More information: RG Translation Control
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link)
Recommended literature:
Tesina, P., et al., Molecular basis of eIF5A-dependent CAT tailing in eukaryotic ribosome-associated quality control. Mol Cell, 2023. 83(4): p. 607-621 e4.
Lu, B., Translational regulation by ribosome-associated quality control in neurodegenerative disease, cancer, and viral infection. Front Cell Dev Biol, 2022. 10: p. 970654.
Filbeck, S., et al., Ribosome-associated quality-control mechanisms from bacteria to humans. Mol Cell, 2022. 82(8): p. 1451-1466.
Udagawa, T., et al., Failure to Degrade CAT-Tailed Proteins Disrupts Neuronal Morphogenesis and Cell Survival. Cell Rep, 2021. 34(1): p. 108599.
Aviner, R., et al., Ribotoxic collisions on CAG expansions disrupt proteostasis and stress responses in Huntington’s Disease. bioRxiv, 2022: p. 2022.05.04.490528.
Requirements on candidates:
Biochemistry/molecular biology
More information: RG Structural Biology of Gene Regulation
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1) Dicer structure and function: conserved and evolving features. Zapletal D, Kubicek, K, Svoboda P, Stefl R EMBO Reports (2023) 24:e57215 doi:10.15252/embr.202357215
2) microRNAs in action: biogenesis, function and regulation. Shang R, Lee S, Senavirathne G, Lai EC. Nat Rev Genet. 2023 doi:10.1038/s41576-023-00611-y.
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 project is focused on 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.
Requirements on candidates:
Outstanding candidates with experience in computer simulations and with an MSc/PhD degree in
the fields of biophysics, soft matter physics, physical chemistry, computational chemistry,
statistical mechanics, or related fields. Experience with molecular dynamics simulations (with
GROMACS, CHARMM, NAMD, AMBER, LAMMPS, etc.) at the atomistic or coarse-grained level
would be an advantage.
More information: RG Interaction Protein-Protein and Protein-Membrane
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
Biophys J 2022, 121, 852–861, doi: 10.1016/j.bpj.2021.12.035
Nat Rev Mol Cell Biol 2024, 25(2), 101-118, doi: 10.1038/s41580-023-00668-x
PNAS 2014, 111 (30), 11043-11048, doi: 10.1073/pnas.1323221111
Novel forms of nucleotides will be incorporated in silico in oligomers with sequences relevant for biosystems. The biocompatibility of artificial building blocks will be evaluated using advanced methods of quantum chemistry (that provide also analytical tools for investigation of crucial noncovalent interactions) and molecular dynamics. Available candidates of modified nucleobases and sugars will be investigated experimentally by using NMR spectroscopy in solution.
Requirements on candidates:
Computational and quantum chemistry, structural chemistry or biology.
More information: RG Structure of Biosystems and Molecular Materials
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
CUYACOT, Ben J.R., Ivo DURNÍK, Cina FOROUTAN-NEJAD and Radek MAREK. Anatomy of Base Pairing in DNA by Interacting Quantum Atoms, Journal of Chemical Information and Modeling, 2021, 61, 211-222. doi:10.1021/acs.jcim.0c00642.
YURENKO, Yevgen, Jan NOVOTNÝ and Radek MAREK. Weak Supramolecular Interactions Governing Parallel and Antiparallel DNA Quadruplexes: Insights from Large-Scale Quantum Mechanics Analysis of Experimentally Derived Models. Chemistry - A European Journal, 2017, 23, 5573-5584. doi:10.1002/chem.201700236.
DUREC, Matúš, Francesco ZACCARIA, Célia FONSECA GUERRA and Radek MAREK. Modified guanines as constituents of smart ligands for nucleic acid quadruplexes. Chemistry - A European Journal, 2016, 22, 10912-10922. doi:10.1002/chem.201601608.
BAZZI, Sophia, Jan NOVOTNÝ, Yevgen YURENKO and Radek MAREK. Designing a New Class of Bases for Nucleic Acid Quadruplexes and Quadruplex-Active Ligands. Chemistry - A European Journal, 2015, 21, 9414-9425. doi:10.1002/chem.201500743.
YURENKO, Yevgen, Jan NOVOTNÝ, Vladimír SKLENÁŘ and Radek MAREK. Substituting CF2 for O4' in Components of Nucleic Acids: Towards Systems with Reduced Propensity to Form Abasic Lesions. Chemistry - A European Journal, 2015, 21, 17933-17943. doi:10.1002/chem.201502977.
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 Ck1epsilon/sigma 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. Candidates can choose among three open questions, that if resolved, will have significant impact on Wnt research.
1) Does disorder provide new contexts to structured domain(s) and, hence, enhance the DVL functional space associated with them?
2) Is there a direction, order or hierarchy in the phosphorylation of individual S/T sites and clusters in DVL?
3) What are the physical behaviors associated with intrinsic disorder and their connection to DVL liquid-liquid phase separation?
Requirements on candidates:
Biomolecular NMR, Biochemistry, Molecular Cell Biology
More information: RG Protein-DNA Interactions
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
Kravec M. et al. A new mechanism of posttranslational polyglutamylation regulates phase separation and signaling of the Wnt pathway protein Dishevelled. Embo J., 2024 (accepted)
Hanáková K. et al. Comparative phosphorylation map of Dishevelled 3 links phospho-signatures to biological outputs. Cell Commun. Signal., 2019. 17: p. 170
Harnoš J. et al. Dishevelled-3 conformation dynamics analyzed by FRET-based biosensors reveals a key role of casein kinase 1. Nat. Commun., 2019. 10: p. 1804
Requirements on candidates:
Outstanding candidates with experience in computer simulations and with an MSc/PhD degree in
the fields of biophysics, soft matter physics, physical chemistry, computational chemistry,
statistical mechanics, or related fields. Experience with molecular dynamics simulations (with
GROMACS, CHARMM, NAMD, AMBER, LAMMPS, etc.) at the atomistic or coarse-grained level
would be an advantage.
More information: RG Interaction Protein-Protein and Protein-Membrane
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Bartoš, L., Vácha, R.: Biophys. J. 2024, 123, 1-10
2. M. Bogdanov, K. Pyrshev, S. Yesylevskyy, S., Ryabichko, V. Boiko, P. Ivanchenko, R. Kiyamova, Z. Q. Guan, C. Ramseyer, W. Dowhan, Sci. Adv. 2020, 6.
3. G. J. Schutz, G. Pabst, Bioessays 2023, e2300116
4. M. Varma, M. Deserno, Biophys. J. 2022, 121, 4001-4018
Requirements on candidates:
Preferable candidate’s background in biophysics/biophysical chemistry, biochemistry, structural or molecular biology.
More information: RG Protein Structure and Dynamics
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).Recommended literature:
1. Kitoka K, Lends A, Kučinskas G, Bula AL, Krasauskas L, Smirnovas V, Zilkova M; Kovacech B, Skrabana R, Hritz J, Jaudzems K*: dGAE(297-391) tau fragment promotes the formation of CTE-like full-length tau filaments, Angew. Chem. Int. Ed. 2024, e202407821.
2. Crha R., Kozeleková A., Hofrová A., Iľkovičová L., Gašparik N., Kadeřávek P., Hritz J.*: Hiding in plain sight: Complex interaction patterns between Tau and 14-3-3 zeta protein variants. Int. J. Biol. Macromol. 2024, 266, 130802.
3. Lasorsa A., Bera K., Malki I., Dupré E., Cantrelle F., Merzougui H., Sinnaeve D., Hanoulle X., Hritz J.*, Landrieu I.*: Conformational impact of multiple phosphorylations within BIN1 SH3 domain binding site in the proline rich region of Tau protein. Biochemistry 2023, 62, 1631–1642, doi: 10.1021/acs.biochem.2c00717.
4. Trosanova Z., Lousa P., Kozelekova A., Brom T., Gasparik N., Tungli J., Weisova V., Zupa E., Zoldak G., Hritz J.*: Quantitation of human 14-3-3 zeta dimerization and the effect of phosphorylation on dimer-monomer ekvilibria. J. Mol. Biol. 2022, 434, 167479.
5. Zapletal, V.; Mládek, A.; Melková, K.; Louša, P.; Nomilner, E.; Jaseňáková, Z.; Kubáň, V.; Makovická, M.; Laníková, A.; Žídek L.; Hritz, J.* Choice of force field for proteins containing structured and intrinsically disordered regions. Biophys. J. 2020, 118, 1621 – 1633.
6. Louša, P.; Nedozrálová, H.; Župa, E.; Nováček, J.; Hritz, J.*: Phosphorylation of the regulatory domain of human tyrosine hydroxylase 1 monitored using non-uniformly sampled NMR. Biophys. Chem. 2017, 223, 25-29.
7. Jansen S., Melková K., Trošanová Z., Hanáková K., Zachrdla M., Nováček J., Župa E., Zdráhal Z., Hritz J.*, Žídek L.*: Quantitative Mapping of MAP2c Phosphorylation and 14-3-3zeta Binding Sites Reveals Key Differences Between MAP2c and Tau. J. Biol. Chem. 2017, 292, 6715-6727.
Requirements on candidates:
The prospective student should be interested in learning cryo-EM and structure determination approaches.
Previous experience with molecular biology, programming, scripting, and data analyses is a plus.
More information: RG Structural Virology
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Virus entry by endocytosis. Mercer J, Schelhaas M, Helenius A. Annu Rev Biochem. 2010;79:803-33. doi: 10.1146/annurev-biochem-060208-104626. PMID: 20196649
2. Adenovirus Entry: From Infection to Immunity. Greber UF, Flatt JW. Annu Rev Virol. 2019 Sep 29;6(1):177-197. doi: 10.1146/annurev-virology-092818-015550. Epub 2019 Jul 5. PMID: 31283442
3. Sending mixed signals: polyomavirus entry and trafficking. Mayberry CL, Bond AC, Wilczek MP, Mehmood K, Maginnis MS. Curr Opin Virol. 2021 Apr;47:95-105. doi: 10.1016/j.coviro.2021.02.004. Epub 2021 Mar 6. PMID: 33690104
4. Parvoviral host range and cell entry mechanisms. Cotmore SF, Tattersall P. Adv Virus Res. 2007;70:183-232. doi: 10.1016/S0065-3527(07)70005-2. PMID: 17765706
Requirements on candidates:
The prospective student should be interested in learning cryo-EM and structure determination approaches.
Previous experience with molecular biology, programming, scripting, and data analyses is a plus.
More information: RG Structural Virology
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Key principles and methods for studying the endocytosis of biological and nanoparticle therapeutics. Rennick JJ, Johnston APR, Parton RG. Nat Nanotechnol. 2021 Mar;16(3):266-276. doi: 10.1038/s41565-021-00858- 8. Epub 2021 Mar 12. PMID: 33712737
2. Experimental Perspectives on Direct Visualization of Endosomal Rupture. Day RA, Sletten EM. Chembiochem. 2021 Dec 2;22(23):3277-3282. doi: 10.1002/cbic.202100379. Epub 2021 Sep 23. PMID: 34519410
3. Endosomal escape: A bottleneck for LNP-mediated therapeutics. Chatterjee S, Kon E, Sharma P, Peer D. Proc Natl Acad Sci U S A. 2024 Mar 12;121(11):e2307800120. doi: 10.1073/pnas.2307800120. Epub 2024 Mar 4. PMID: 38437552
4. Mechanisms of endocytosis. Doherty GJ, McMahon HT. Annu Rev Biochem. 2009;78:857-902. doi:10.1146/annurev.biochem.78.081307.110540. PMID: 19317650
CDK11 is ubiquitously expressed in all tissues and the CDK11 null mouse is lethal at an early stage of development indicating an important role for Cdk11 in the adult as well as during development. CDK11 is believed to play a role in RNAPII-directed transcription and co-transcriptional mRNA-processing, particularly alternative splicing and 3end processing. However, its genome-wide function in regulating the human transcriptome is unknown. Notably, several recent studies identified CDK11 as a candidate essential gene for growth of several cancers therefore, understanding the molecular mechanism(s) of CDK11-dependent gene expression would be also of significant clinical interest. In this research we will use various techniques of molecular biology and biochemistry to characterize genome-wide role of CDK11 in regulation of gene expression and tumorigenesis.
Requirements on candidates:Background in molecular biology, biochemistry or life sciences. Interest in bioinformatics and data analyses is desirable.
More information: RG Inherited Diseases - Transcriptional Regulation
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Hluchy M, Gajduskova, P., Ruiz de los Mozos I., Rajecky M., Kluge M., Berger BT., Slaba Z. Potesil D., Weis E., Ule J., Zdrahal Z., Knapp S., Paruch K., Friedel CC., Blazek D*. CDK11 regulates pre-mRNA splicing by phosphorylation of SF3B1. Nature; 609(7928):829-834 (2022)
2. Gajduskova, P., Ruiz de Los Mozos I, Rajecky M., Hluchy M., Ule J., Blazek D*: CDK11 is required for transcription of replication dependent histone genes. Nature Structural & Molecular Biology 27 (5):500-510 (2020)
Cdk12 is transcriptional cyclin-dependent kinase (Cdk) found mutated in various cancers. In previous studies we found that Cdk12 maintains genome stability via optimal transcription of key homologous recombination repair pathway genes including BRCA1. Apart from the C-terminal domain of RNA Polymerase II other cellular substrates for both kinases are not known. In this research we propose using a screen in cells carrying an analog sensitive mutant of CDK12 to discover its novel cellular substrates. The substrates and their roles in normal and cancerous cells will be characterized by various techniques of molecular biology and biochemistry.
Requirements on candidates:Background in molecular biology, biochemistry or life sciences. Interest in bioinformatics and data analyses is desirable.
More information: RG Inherited Diseases - Transcriptional Regulation
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
Pilarova K, Herudek J, Blazek D.*: CDK12: Cellular functions and therapeutic potential of versatile player in cancer: Nucleic Acids Research Cancer (Oxford University Press) k2 (1): zcaa003 (2020).
Chirackal Manavalan A.P., Pilarova K., Kluge M., Bartholomeeusen K., Oppelt J., Khirsariya P., Paruch K., Krejci L., Friedel C.C., Blazek D* : CDK12 controls G1/S progression via regulating RNAPII processivity at core DNA replication genes. EMBO reports 20(9):47592 (2019).
Ekumi KM, Paculova H, Lenasi T, Pospichalova V, Bösken CA, Rybarikova J, Bryja V, Geyer M, Blazek D*, Barboric M*. Ovarian carcinoma CDK12 mutations misregulate expression of DNA repair genes via deficient formation and function of the Cdk12/CycK complex. Nucleic Acids Research 43(5):2575-89 (2015).
Bösken CA, Farnung L, Hintermair C, Merzel Schachter M, Vogel-Bachmayr K, Blazek D, Anand K, Fisher RP, Eick D, Geyer M. The structure and substrate specificity of human Cdk12/Cyclin K. Nature Communications 5 (2014).
Blazek D*., Kohoutek J., Bartholomeeusen K., Johansen E., Hulinkova P., Luo Z., Cimermancic P.,Ule J., Peterlin B.M.: The CycK/Cdk12 complex maintains genomic stability via regulation of expression of DNA damage response genes. Genes and Development 25 (20): 2158-2172 (2011).
Requirements on candidates:
Motivated smart people who have the “drive” to work independently but are also willing to learn from other people in the lab and collaborate.
Candidates should have a master’s degree in Molecular biology, Biochemistry, or a similar field and have a deep interest in molecular biology and cancer cell biology.
More information: RG Microenvironment of Immune Cells
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Hoferkova E, et al…. Mraz M. Stromal cells engineered to express T cell factors induce robust CLL cell proliferation in vitro and in PDX co-transplantations allowing the identification of RAF inhibitors as anti-proliferative drugs. Leukemia. 2024 Aug;38(8):1699-1711
2. Pavlasova G, et al…. Mraz M. Ibrutinib inhibits CD20 upregulation on CLL B cells mediated by the CXCR4/SDF-1 axis. Blood. 2016 Sep 22;128(12):1609-13. doi: 10.1182/blood-2016-04-709519. Epub 2016 Aug 1. PMID: 27480113 Free PMC article
3. Kipps et al. Chronic lymphocytic leukaemia. Nat Rev 2017 https://pubmed.ncbi.nlm.nih.gov/28102226/
4. Seda V, Mraz M. B-cell receptor signalling and its crosstalk with other pathways in normal and malignant cells. Eur J Haematol. 2015 Mar;94(3):193-205. doi: 10.1111/ejh.12427. Epub 2014 Sep 13. PMID: 25080849 Review.
Requirements on candidates:
Prospective students should ideally have a master's degree in molecular biology/biochemistry and have laboratory experience in nucleic acids and/or protein purification and analyses. Experience with coding in R and statistics is a big plus. The most highly valued feature, however, is excitement and curiosity for science and a strong drive in tackling important biological questions.
More information: RG RNA Quality Control
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Dynamic transitions between B-DNA and non-canonical DNA conformations, such as G-quadruplexes, i-motifs, and Z-DNA, contribute to the regulatory control of genome integrity and gene expression, playing an essential role in defense against invading pathogens. The function of these structures is linked to their dynamic polymorphism, which allows them to adapt sensitively to changes in the intracellular environment due to cellular stress and physiological oscillations. The project will explore the mechanisms of transferring information from the intracellular environment to the dynamic structural equilibria of DNA as the cell’s physiological state changes.
Requirements on candidates:
The candidate is expected to have theoretical and practical knowledge of biomolecular NMR spectroscopy and an interest in the biology of nucleic acids.
More information: RG Non-Coding Genome
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link)
Recommended literature:
1: Víšková et al. In-cell NMR suggests that DNA i-motif levels are strongly depleted in living human cells. Nat Commun. 2024 Mar 5;15(1):1992.
2: Krafcikova et al. Monitoring DNA-Ligand Interactions in Living Human Cells Using NMR Spectroscopy. J Am Chem Soc. 2019 Aug 28;141(34):13281-13285.
3: Gajarsky et al. DNA Quadruplex Structure with a Unique Cation Dependency. Angew Chem Int Ed Engl. 2024 Feb 12;63(7):e202313226.
Requirements on candidates:
Outstanding candidates with experience in computer simulations and with an MSc/PhD degree in
the fields of biophysics, soft matter physics, physical chemistry, computational chemistry,
statistical mechanics, or related fields. Experience with molecular dynamics simulations (with
GROMACS, CHARMM, NAMD, AMBER, LAMMPS, etc.) at the atomistic or coarse-grained level
would be an advantage.
More information: RG Interaction Protein-Protein and Protein-Membrane
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Biochemistry 2022, 61, 2456-2460 , doi: 10.1021/acs.biochem.2c00220
2. Nucleus 2023, 14:1, 2213551, doi: 10.1080/19491034.2023.2213551
3. PLoS Comput Biol 2023, 19(7): e1011321. doi: 10.1371/journal.pcbi.1011321
4. Science 2018, 361, 6, 6400, doi: 10.1126/science.aar2555
Requirements on candidates:
Motivated smart people who have the “drive” to work independently but are also willing to learn from other people in the lab and collaborate.
Candidates should have a master’s degree in Molecular biology, Biochemistry, or a similar field and have a deep interest in molecular biology and cancer cell biology.
More information: RG Microenvironment of Immune Cells
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Seda et al….Mraz FoxO1-GAB1 Axis Regulates Homing Capacity and Tonic AKT Activity in Chronic Lymphocytic Leukemia. Blood 2021 March (epub). https://pubmed.ncbi.nlm.nih.gov/33786575/
2. Pavlasova G, et al…. Mraz M. Ibrutinib inhibits CD20 upregulation on CLL B cells mediated by the CXCR4/SDF-1 axis. Blood. 2016 Sep 22;128(12):1609-13. doi: 10.1182/blood-2016-04-709519. Epub 2016 Aug 1. PMID: 27480113 Free PMC article
3. Seda V, Mraz M. B-cell receptor signalling and its crosstalk with other pathways in normal and malignant cells. Eur J Haematol. 2015 Mar;94(3):193-205. doi: 10.1111/ejh.12427. Epub 2014 Sep 13. PMID: 25080849 Review.
Requirements on candidates:
We are looking for a highly motivated PhD student with an interest in cellular biology and
advanced microscopy techniques. Ideally the candidate should have acquired basic
expertise in plant molecular biology techniques. Confocal microscopy is a plus although
it is not required.
More information: RG Plant Molecular Biology
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Banani, S. F., Lee, H. O., Hyman, A. A. & Rosen, M. K. Biomolecular condensates:Organizers of cellular biochemistry. Nature Reviews Molecular Cell Biology vol. 18 (2017).
2. Cairo, A. et al. Meiosis exit in Arabidopsis is driven by P-body-mediated inhibition of translation. Science (80-. ). 377, (2022).
3. Cho, H. Y., Lu, M. Y. J. & Shih, M. C. The SnRK1-eIFiso4G1 signaling relay regulates the translation of specific mRNAs in Arabidopsis under submergence. New Phytol. 222, (2019).
4. Chantarachot, T. & Bailey-Serres, J. Polysomes, stress granules, and processing bodies: A dynamic triumvirate controlling cytoplasmic mRNA fate and function. Plant Physiology vol. 176 (2018).
5. Desroches Altamirano, C. et al. eIF4F is a thermo-sensing regulatory node in the translational heat shock response. Mol. Cell (2024) doi:10.1016/J.MOLCEL.2024.02.038.
Requirements on candidates:
We are seeking a PhD. candidate who was trained in structural biology (mainly cryo-electron microscopy),
worked in translation field or in general biochemistry and is a motivated person with collaborative mind set.
More information: RG Regulation of Translation
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).Recommended literature:
1. Klinge, S. and J. L. Woolford, Jr. (2019). Ribosome assembly coming into focus. Nat Rev Mol Cell Biol 20(2): 116-131.
2. Khusainov, I., et al. (2020). Mechanism of ribosome shutdown by RsfS in Staphylococcus aureus revealed by integrative structural biology approach. Nat Commun 11(1): 1656.
3. Sharma, I. M. and S. A. Woodson (2020). RbfA and IF3 couple ribosome biogenesis and translation initiation to increase stress tolerance. Nucleic Acids Res 48(1): 359-372.
4. Nikolay, R., et al. (2021). Snapshots of native pre-50S ribosomes reveal a biogenesis factor network and evolutionary specialization. Mol Cell 81(6): 1200-1215 e1209.
5. Yaeshima, C., et al. (2022). A novel ribosome-dimerization protein found in the hyperthermophilic archaeon Pyrococcus furiosus using ribosome-associated proteomics. Biochem Biophys Res Commun 593: 116-121.
Requirements on candidates:
Preferable candidate’s background in biophysics, computational chemistry, or physical
chemistry.
More information: RG Protein Structure and Dynamics
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).Recommended literature:
1. Kitoka K, Lends A, Kučinskas G, Bula AL, Krasauskas L, Smirnovas V, Zilkova M; Kovacech B, Skrabana R, Hritz J, Jaudzems K*: dGAE(297-391) tau fragment promotes the formation of CTE-like full-length tau filaments, Angew. Chem. Int. Ed. 2024, e202407821.
2. Crha R., Kozeleková A., Hofrová A., Iľkovičová L., Gašparik N., Kadeřávek P., Hritz J.*: Hiding in plain sight: Complex interaction patterns between Tau and 14-3-3 zeta protein variants. . Int. J. Biol. Macromol. 2024, 266, 130802.
3. Lasorsa A., Bera K., Malki I., Dupré E., Cantrelle F., Merzougui H., Sinnaeve D., Hanoulle X., Hritz J.*, Landrieu I.*: Conformational impact of multiple phosphorylations within BIN1 SH3 domain binding site in the proline rich region of Tau protein. Biochemistry 2023, 62, 1631–1642.
4. Trosanova Z., Lousa P., Kozelekova A., Brom T., Gasparik N., Tungli J., Weisova V., Zupa E., Zoldak G., Hritz J.*: Quantitation of human 14-3-3 zeta dimerization and the effect of phosphorylation on dimer-monomer ekvilibria. J. Mol. Biol. 2022, 434, 167479.
5. Zapletal, V.; Mládek, A.; Melková, K.; Louša, P.; Nomilner, E.; Jaseňáková, Z.; Kubáň, V.; Makovická, M.; Laníková, A.; Žídek L.; Hritz, J.* Choice of force field for proteins containing structured and intrinsically disordered regions. Biophys. J. 2020, 118, 1621 – 1633.
6. Jandova Z; Trosanova Z.; Weisova V.; Oostenbrink C., Hritz J.*: Free energy calculations on the stability of the 14-3-3 zeta protein. BBA - Proteins and Proteomics, 2018, 1866, 442- 450.
7. Nagy G., Oostenbrink C., Hritz J.*: Exploring the Binding Pathways of the 14-3-3 zeta Protein: Structural and Free-Energy Profiles Revealed by Hamiltonian Replica Exchange Molecular Dynamics with Distance Field Distance Restraints. PLoS ONE 2017,12(7), e0180633.
Requirements on candidates:
The prospective student should be interested in learning cryo-EM and structure determination approaches.
Previous experience with molecular biology, programming, scripting, and data analyses is a plus.
More information: RG Structural Virology
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link)
Recommended literature:
1. Characterization of LE3 and LE4, the only lytic phages known to infect the spirochete Leptospira. Schiettekatte O, Vincent AT, Malosse C, Lechat P, Chamot-Rooke J, Veyrier FJ, Picardeau M, Bourhy P. Sci Rep. 2018 Aug 6;8(1):11781. doi: 10.1038/s41598-018-29983-6.
2. Molecular architecture of tailed double-stranded DNA phages. Fokine A, Rossmann MG. Bacteriophage. 2014 Jan 1;4(1):e28281. doi: 10.4161/bact.28281. Epub 2014 Feb 21. PMID: 24616838
3. A century of the phage: past, present and future. Salmond GP, Fineran PC. Nat Rev Microbiol. 2015 Dec;13(12):777-86. doi: 10.1038/nrmicro3564. Epub 2015 Nov 9. PMID: 26548913
4. Viral genome packaging machines: Structure and enzymology. Catalano CE, Morais MC. Enzymes. 2021;50:369-413. doi: 10.1016/bs.enz.2021.09.006. Epub 2021 Nov 10. PMID: 34861943
5. Casjens, S. R. (2011). The DNA-packaging nanomotor of tailed bacteriophages. Nature Reviews Microbiology, 9(9), 647–657. doi:10.1038/nrmicro2632
Requirements on candidates:
Strong background in biophysics and/or physical chemistry, experience with electron microscopy or NMR
spectroscopy is an advantage.
More information: RG Protein Structure and Dynamics
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
1. Camacho-Zarco et al., Chem. Reviews. 2022, 122, 9331-9356 https://dx.doi.org/10.1021/acs.chemrev.1c01023.
2. Kubáň et al., J. Am. Chem. Soc. 2019, 141, 16817-16828. https://dx.doi.org/10.1021/jacs.9b07837.
Requirements on candidates:
Computational and quantum chemistry, structural chemistry or biology.
More information: RG Structure of Biosystems and Molecular Materials
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link).
Recommended literature:
Aleš NOVOTNÝ, Jan NOVOTNÝ, Iva KEJNOVSKÁ, Michaela VORLÍČKOVÁ, Radovan FIALA and Radek MAREK. Revealing structural peculiarities of homopurine GA repetition stuck by i-motif clip. Nucleic Acids Research, 2021, 49, 11425. doi:10.1093/nar/gkab915
Proteins are produced by ribosome-catalyzed translation of mRNAs in all domains of life. Translation is also critical in the context of human host-pathogen interaction where the ribosome, as the central molecular machine for genetic information expression, is the subject to numerous regulatory and quality control events and pathological interventions. The strategies adopted by viruses to reprogram translation and co-translational quality control machinery to promote infection are poorly understood. Thus, there is an urgent need for further research in this area to develop effective strategies for combating viral infections. The successful candidate will study how viruses affect human translation and co-translational quality control with the aim of providing high-resolution structures of large macromolecular assemblies. He/she will utilize human cell cultures, protein expression and purification techniques and biochemistry methods to produce samples for cryogenic electron microscopy (cryo-EM). Comprehensive training in cryo-EM will be available to the successful candidate.
Requirements on candidates:
The ideal candidate should have a background in either molecular biology, biochemistry, or structural biology. Experience with human cell culture work or protein biochemistry is a plus.
More information: RG Translation Control
PLEASE NOTE: Before starting the formal application process, applicants must register on the CEITEC PhD School website (link)
Recommended literature:
Xu, Z., et al., SARS-CoV-2 impairs interferon production via NSP2-induced repression of mRNA translation. Proc Natl Acad Sci U S A, 2022. 119(32): p. e2204539119.
Hsu, J.C., et al., Viperin triggers ribosome collision-dependent translation inhibition to restrict viral replication. Mol Cell, 2022. 82(9): p. 1631-1642 e6.
Thoms, M., et al., Structural basis for translational shutdown and immune evasion by the Nsp1 protein of SARS-CoV-2. Science, 2020. 369(6508): p. 1249-1255.
Lu, B., Translational regulation by ribosome-associated quality control in neurodegenerative disease, cancer, and viral infection. Front Cell Dev Biol, 2022. 10: p. 970654.
Zajišťuje | Přírodovědecká fakulta | |
---|---|---|
Typ studia | doktorský | |
Forma | prezenční | ano |
kombinovaná | ano | |
distanční | ne | |
Možnosti studia | jednooborově | ano |
jednooborově se specializací | ne | |
v kombinaci s jiným programem | ne | |
Doba studia | 4 roky | |
Vyučovací jazyk | čeština | |
Oborová rada a oborové komise |
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