# Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

Created: | 2014-01-14 10:09 |
---|---|

Institution: | Isaac Newton Institute for Mathematical Sciences |

Description: | The aim of this six-month research programme is to create a unique forum to strengthen and develop research links between state-of-the-art experimental "wet" sciences (biology, medicine, bio-physics) and theoretical "dry" sciences (pure, applied and computational mathematics, theoretical physics, statistics). In this programme we will discuss and present in a hands-on format current experimental methodology for cell motility and pattern formation. We will emphasise interactions between experimentalists and theoreticians, with the dual goals of understanding how current mathematical techniques from physics, differential geometry, mathematical modelling and numerical analysis can help to understand current problems in the areas of cell motility and pattern formation, and what new mathematical techniques may emerge in the process.
Read more at http://www.newton.ac.uk/programmes/CGP/ |

# Media items

This collection contains 106 media items.

### Media items

#### Mathematical models for cell-extracellular matrix interactions in tissue development

Green, E (University of Adelaide)

Wednesday 16th September 2015 - 13:30 to 14:15

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Tue 29 Sep 2015

#### Sensitivity analysis and quantification of uncertainty

Gerisch, A (Technische Universität Darmstadt)

Friday 24th July 2015, 09:00 to 10:15

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Thu 30 Jul 2015

#### $\Sigma^0_3$ determinacy and friends

Lubarsky, R (Florida Atlantic University)

Tuesday 15th September 2015 - 15:00 to 16:00

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Tue 6 Oct 2015

#### A brief review of the mathematics and mechanics of biological membranes, plates, and shell

Goriely, A (University of Oxford)

Friday 17th July 2015, 10:45 to 12:00

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Tue 21 Jul 2015

#### A Computational Model for Single Cell Migration and Chemotaxis: Coupling Bulk and Membrane Bound Processes

Mackenzie, J (University of Strathclyde)

Tuesday 15th September 2015 - 15:30 to 16:15

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Tue 29 Sep 2015

#### A hybrid model to test mechanical cues driving cell migration in angiogenesis

Angélique, S [CNRS (Centre national de la recherche scientifique)]

Tuesday 17th November 2015 - 11:00 to 12:30

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 17 Feb 2016

#### A model for selection of eyespots on butterfly wings

Sekimura, T

Thursday 3rd September 2015 - 11:00 to 12:00

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Tue 6 Oct 2015

#### A Theoretician's Overview of Some Basic Problems in the Modelling and Analysis of Cell Motility

Othmer, H (University of Minnesota)

Monday 13th July 2015, 10:45 - 11:45

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 15 Jul 2015

#### Actin cortex mechanics in cell migration without focal adhesions

Paluch, E

Monday 13th July 2015, 13:30 - 14:30

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 15 Jul 2015

#### Actin dynamics in Dictyostelium

Bretschneider, T (University of Warwick)

Tuesday 14th July 2015, 13:30 - 14:30

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 15 Jul 2015

#### Adhesions in epithelial cell migration

Leube, R (RWTH Aachen University)

Wednesday 15th July 2015, 15:15 to 16:30

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Fri 17 Jul 2015

#### An integrated computational approach for the design of patient-specific virtual tumours

Stéphanou, A (CNRS (Centre national de la recherche scientifique), Université Joseph Fourier Grenoble)

Monday 7th December 2015 - 13:30 to 14:15

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Mon 21 Dec 2015

#### Analysis of stochastic multiscale systems: derivation of coarse-grained models, calculation of effective coefficients...

Pavliotis, G (Imperial College London)

Monday 20th July 2015, 10:45 to 12:00

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 22 Jul 2015

#### Anomalous diffusion is everywhere but where?

Korabel, M (University of Manchester)

Thursday 15th October 2015 - 11:00 to 12:00

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Fri 16 Oct 2015

#### Biomolecular interaction assays

Dehmelt, L

Friday 24th July 2015, 13:30 to 14:45

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 29 Jul 2015

#### Cancer Cell Migration in 3D

Wirtz, D (Johns Hopkins University)

Tuesday 15th September 2015 - 09:00 to 10:00

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 30 Sep 2015

#### Case Studies in Cancer Modelling

Chaplain, M (University of St Andrews)

Wednesday 9th December 2015 - 13:45 to 14:30

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Mon 21 Dec 2015

#### Case studies in modelling pattern formation

Maini, P (University of Oxford)

Monday 20th July 2015, 09:00 to 10:15

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Wed 22 Jul 2015

#### Cell Adhesion Video Clip

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Tue 14 Jan 2014

#### Cell Migration Assays

Zeno von Guttenberg

Thursday 23rd July 2015, 13:30 to 14:45

**Collection**:
Coupling Geometric PDEs with Physics for Cell Morphology, Motility and Pattern Formation

**Institution**:
Isaac Newton Institute for Mathematical Sciences

**Created**:
Fri 24 Jul 2015