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Cell Biology / Development (complex systems) PhD Projects, Programs & Scholarships

We have 50 Cell Biology / Development (complex systems) PhD Projects, Programs & Scholarships

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  20 Funded PhD Positions in the IMPRS-CellDevoSys - Integrating Biology, Physics, Chemistry & Computer Science

Funding Type

PhD Type

A 4-year PhD Program involving 3 renowned international institutes. the Max Planck Institute of Molecular Cell Biology and Genetics, the Center for Systems Biology Dresden, and the Max Planck Institute for the Physics of Complex Systems.
  20 Funded PhD Positions in the IMPRS-CellDevoSys - Integrating Biology, Physics, Chemistry & Computer Science

Funding Type

PhD Type

A 4-year PhD Program involving 3 renowned international institutes. the Max Planck Institute of Molecular Cell Biology and Genetics, the Center for Systems Biology Dresden, and the Max Planck Institute for the Physics of Complex Systems.
  *EASTBIO* Adaptation in Exploratory Processes
  Research Group: Centre for Biological Diversity
  Prof K N Laland, Prof G Ruxton
Application Deadline: 5 January 2020

Funding Type

PhD Type

BBSRC Thematic Group. Frontier Bioscience. Organisms often respond to new challenges through ‘exploratory mechanisms’ (Gerhart & Kirschner, 1997), which are complex developmental systems that operate by generating variation (i.e.
  Adaptation in Exploratory Processes
  Research Group: Centre for Biological Diversity
  Prof K N Laland, Prof G Ruxton
Application Deadline: 1 December 2019

Funding Type

PhD Type

Organisms often respond to new challenges through ‘exploratory mechanisms’ (Gerhart & Kirschner, 1997), which are complex developmental systems that operate by generating variation (i.e.
  EASTBIO Investigating the role of cell polarity pathways during neurite formation
  Research Group: Institute of Cell Biology
  Dr D Cheerambathur
Application Deadline: 5 January 2020

Funding Type

PhD Type

The establishment of an orderly neuronal circuitry is essential for proper organismal development and function.
  (BBSRC DTP) Optimisation of heteromeric protein complex formation via co-ordinated mRNA localisation
  Prof M Ashe, Dr M Pool, Prof C M Grant
Application Deadline: 31 January 2020

Funding Type

PhD Type

RNA granules play key roles in cells controlling many aspects of mRNA fate. For instance, in response to stress the relocalisation of mRNAs to mRNA processing bodies (P-bodies) and stress granules facilitates the degradation or storage of unwanted or valuable mRNAs, respectively.
  Precision Medicine DTP – A novel data integration method for cellular social networks within self-organising multicellular systems
  Research Group: Institute of Stem Cell Research
  Dr G Blin, Dr L Schumacher, Dr A Tsanas
Application Deadline: 8 January 2020

Funding Type

PhD Type

Background. The quantification and interrogation of how the cells organise and interact with their environment is fundamental for advancing developmental biology, cancer research, pharmaceutics and medical diagnostics.
  Physics behind the evolution of cell remodelling
  Dr A Saric
Applications accepted all year round

Funding Type

PhD Type

Complex eukaryotic cells first appeared on earth over a billion years ago. Such cells are built out of physical compartments separated from each other by membrane boundaries.
  Systems level analysis of platelet signalling
  Dr M J Fry, Prof J M Gibbins
Applications accepted all year round

Funding Type

PhD Type

We are interested in how intracellular signal transduction networks bring about complex biological behaviours in cells. We do this by combining computational biology with wet laboratory experimentation.
  (MRC DTP) Building the human endometrium in vitro: The role of macrophages in receptive and decidual endometrium to optimise reproductive health
  Dr E Mann, Dr Peter Ruane, Prof J Aplin, Dr L Mohiyiddeen
Application Deadline: 15 November 2019

Funding Type

PhD Type

The human endometrium is a highly dynamic tissue that rapidly generates over ~20 days and differentiates to form a uterus lining receptive to embryo implantation, further transforming into decidua to support embryonic development, or breaking down before regenerating a few days later.
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