Erasmus+ students are more than welcome at the Max Perutz Labs! You need to arrange with your home university to be nominated for an Erasmus+ placement in the field of Molecular Biology at the University of Vienna. Interested students should complete the application form, and contact the Molecular Biology study program coordinator, Ivan Yudushkin, to confirm your preferred lectures, courses and seminars.
All highly qualified and motivated students are welcome to do an internship at the Max Perutz Labs. In case your home university supports Erasmus+ internships at the University of Vienna, please contact a Max Perutz Labs research group leader directly with your CV and a motivation letter. After you have been accepted by a group leader, you can apply for Erasmus+ funding via your home university. Only placements of between 3 and 12 months will be supported. In case you have further questions, please contact Peter Schlögelhofer.
If you are a student at the Max Perutz Labs in the field of Molecular Biology who would like to apply for the Erasmus+ program, please consult the websites of the University of Vienna or the Medical University as applicable. You should submit your application to the Erasmus+ coordinator Gerhard Wiche.
Identifying and exploiting cell-state dependent metabolic programs
Chromatin as a gatekeeper of chromosome replication
Mind matters. VBC mental health awareness
The multiple facets of Hop1 during meiotic prophase
Chromosomes as Mechanical Objects: from E.coli to Meiosis to Mammalian cells
Convergent evolution of CO2-fixing liquid-liquid phase separation
Viral envelope engineering for cell type specific delivery
New ways of leading: inclusive leadership and revising academic hierarchies
How an opportunistic human pathogen colonizes surfaces - From pathogen behavior to new drugs
Title to be announced
Decoding Molecular Plasticity in the Dark Proteome of the Nuclear Pore Complex
Probing the 3D genome architectural basis of neurodevelopment and aging in vivo
How to tango with four - the evolution of meiotic chromosome segregation after genome duplication
Multidimensional approach to decoding the mysteries of animal development
Membrane remodeling proteins at the junction between prokaryotes and eukaryotes
Connecting mitotic chromosomes to dynamic microtubules - insight from biochemical reconstitution
Neurodiversity in academia: strengths and challenges of neurodivergence
Gene expression dynamics during the awakening of the zygotic genome
When all is lost? Measuring historical signals
Suckers and segments of the octopus arm
Using the house mouse radiation to study the rapid evolution of genes and genetic processes
CRISPR jumps ahead: mechanistic insights into CRISPR-associated transposons
Title to be announced
Enigmatic evolutionary origin and multipotency of the neural crest cells - major drivers of vertebrate evolution
Visualising mitotic chromosomes and nuclear dynamics by correlative light and electron microscopy
Bacterial cell envelope homeostasis at the (post)transcriptional level
Polyploidy and rediploidisation in stressful times
Prdm9 control of meiotic synapsis of homologs in intersubspecific hybrids
RNA virus from museum specimens
Programmed DNA double-strand breaks during meiosis: Mechanism and evolution
Title to be announced