Ciaran Welsh scite author profile

Ciaran Welsh

4Publications

32Citation Statements Received

254Citation Statements Given

How they've been cited

How they cite others

208

252

Affiliations

Newcastle University, Newcastle Hospitals - Campus for Ageing and Vitality

Publications

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PyCoTools: a Python toolbox for COPASI

Welsh

Fullard

Proctor

et al. 2018

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MotivationCOPASI is an open source software package for constructing, simulating and analyzing dynamic models of biochemical networks. COPASI is primarily intended to be used with a graphical user interface but often it is desirable to be able to access COPASI features programmatically, with a high level interface.ResultsPyCoTools is a Python package aimed at providing a high level interface to COPASI tasks with an emphasis on model calibration. PyCoTools enables the construction of COPASI models and the execution of a subset of COPASI tasks including time courses, parameter scans and parameter estimations. Additional ‘composite’ tasks which use COPASI tasks as building blocks are available for increasing parameter estimation throughput, performing identifiability analysis and performing model selection. PyCoTools supports exploratory data analysis on parameter estimation data to assist with troubleshooting model calibrations. We demonstrate PyCoTools by posing a model selection problem designed to show case PyCoTools within a realistic scenario. The aim of the model selection problem is to test the feasibility of three alternative hypotheses in explaining experimental data derived from neonatal dermal fibroblasts in response to TGF-β over time. PyCoTools is used to critically analyze the parameter estimations and propose strategies for model improvement.Availability and implementationPyCoTools can be downloaded from the Python Package Index (PyPI) using the command ’pip install pycotools’ or directly from GitHub (https://github.com/CiaranWelsh/pycotools). Documentation at http://pycotools.readthedocs.io.Supplementary information Supplementary data are available at Bioinformatics online.

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Systems modelling ageing: from single senescent cells to simple multi-cellular models

Guimera¹,

Welsh²,

Pezze

et al. 2017

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Systems modelling has been successfully used to investigate several key molecular mechanisms of ageing. Modelling frameworks to allow integration of models and methods to enhance confidence in models are now well established. In this article, we discuss these issues and work through the process of building an integrated model for cellular senescence as a single cell and in a simple tissue context.

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‘Molecular habituation’ as a potential mechanism of gradual homeostatic loss with age

Guimera

Welsh

Proctor

et al. 2018

Mechanisms of Ageing and Development

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HighlightsConstitutive signals indicate homeostatic dysregulation but their effect on signal transduction remains largely unexplored.A theoretical approach is undertaken to examine how oxidative stress may affect redox signal transduction.Constitutive signals can result in a ‘molecular habituation’ effect that interferes with information transmission.The robustness of such a theoretical observation to the underlying methodology hints at the generality of this principle.

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Cell Senescence-Independent Ageing of Human Skin

Wordsworth

Fullard

Welsh

et al. 2022

Preprint

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Skin ageing is defined in part by collagen depletion and fragmentation that leads to a loss of mechanical tension. This is currently believed to reflect, in part, the accumulation of senescent cells. We compared the expression of genes and proteins for components of the extracellular matrix (ECM) as well as their regulators and found that senescent cells produced more matrix metalloproteinases (MMPs) than proliferating cells from adult and neonatal donors. This was consistent with senescent cells contributing to increased matrix degradation with age; however, cells from adult donors proved significantly less capable of producing new collagen than neonatal or senescent cells, and they showed significantly lower myofibroblast activation as determined by the marker α-SMA. Functionally, adult cells also showed slower migration than neonatal cells. We concluded that while increased collagen degradation with age might reflect senescent cell accumulation, the reduced collagen production that prevents the skin from maintaining homeostasis must reflect senescence-independent processes.

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Ciaran Welsh

PyCoTools: a Python toolbox for COPASI

Systems modelling ageing: from single senescent cells to simple multi-cellular models

‘Molecular habituation’ as a potential mechanism of gradual homeostatic loss with age

Cell Senescence-Independent Ageing of Human Skin

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