Research labs with open PhD positions
|
Project Summary
Project Title: Regulatory mechanisms favoring stem cell maintenance in health and disease Project Description: Candidate Profile: Suggested reading:
|
|
Projects Summary
Project Title: Plectin isoform-specific deficiency: novel model for muscular dystrophy Project Description: Candidate Profile: Suggested reading:
|
Project Title: The role of cytoskeletal crosslinking in cancer Project Description: Candidate Profile: Suggested reading:
|
Project Title: The role of cytoskeletal crosslinking in epithelial mechanobiology Project Description: Candidate Profile: Suggested reading:
|
|
Project Summary
Project Title: Mechanism of somatic hypermutation targeting in the B cell genome Project Description: Candidate Profile: Suggested reading:
|
|
Project Summary
Project Title: Analysis of changes of tumour microenvironment induced by genotoxic therapy supporting glioblastoma malignant traits Project Description: Candidate Profile: Suggested reading:
|
|
Project Summary
Project Title: Developmental genetics of amphioxus: a window into the evolution of vertebrate body plan Project Description: Candidate Profile: Suggested reading:
|
|
Project Summary
Project Title: Screening for proteins involved G4-structure metabolism and their role in prevention of genotoxic stress Project Description: Candidate Profile: Suggested reading:
|
|
Project Summary
Project Title: Converting molecular-scale torques to cellular and embryonic left-right asymmetry Project Description: The vast majority of animals exhibit left-right asymmetric body plans. Left-right asymmetry arises during early embryonic development and is often the result of rotatory movements of cells. Rotational forces, i.e. torques, drive these cellular movements and they originate in the actomyosin cytoskeleton of embryonic cells. We previously demonstrated that, in early embryos of C. elegans nematodes, active torque generation is facilitated by an actin elongator of the Formin family. At the molecular level, Formins can rotate actin filaments and generate torques. However, how the molecular activity of Formins, which are embedded in a highly cross-linked actomyosin network, can result in rotatory movements remains a mystery. Candidate Profile: Suggested reading:
|
Radislav Sedláček – Transgenic Models of Diseases (BIOCEV/CCP)
www.img.cas.cz/research/radislav-sedlacek www.phenogenomics.cz
|
Project Summary
Project Title: SARS-Cov-2: understanding the entry, multi-organ spread and immune response in the context of vaccination and re-infection Project Description: Requirements: What we offer: |
|
Project Summary
Project Title: Molecular mechanism of quality control during spliceosome assembly Project Description: Candidate Profile: Requirements:
Suggested reading:
|
|
Projects Summary
Project Title: Mapping T-cell functions using single cell transcriptomics Project Description: Candidate Profile: Suggested reading: |
Project Title: Protective and pathological tissue-infiltrating T-cells in infections Project Description: Candidate Profile: Suggested reading: |
|
Projects Summary
Project Title: The skeleton of mammalian cilia Project Description: Candidate Profile: Suggested reading:
|
Poslední změna: 21. prosinec 2021