Jake P. N. Hattwell scite author profile

Jake P. N. Hattwell

3Publications

60Citation Statements Received

177Citation Statements Given

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177

Affiliations

ARC Centre of Excellence in Advanced Molecular Imaging, University of Queensland, National Imaging Facility

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Modeling Meets Metabolomics—The WormJam Consensus Model as Basis for Metabolic Studies in the Model Organism Caenorhabditis elegans

Witting

Hastings

Rodríguez

et al. 2018

Front. Mol. Biosci.

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Metabolism is one of the attributes of life and supplies energy and building blocks to organisms. Therefore, understanding metabolism is crucial for the understanding of complex biological phenomena. Despite having been in the focus of research for centuries, our picture of metabolism is still incomplete. Metabolomics, the systematic analysis of all small molecules in a biological system, aims to close this gap. In order to facilitate such investigations a blueprint of the metabolic network is required. Recently, several metabolic network reconstructions for the model organism Caenorhabditis elegans have been published, each having unique features. We have established the WormJam Community to merge and reconcile these (and other unpublished models) into a single consensus metabolic reconstruction. In a series of workshops and annotation seminars this model was refined with manual correction of incorrect assignments, metabolite structure and identifier curation as well as addition of new pathways. The WormJam consensus metabolic reconstruction represents a rich data source not only for in silico network-based approaches like flux balance analysis, but also for metabolomics, as it includes a database of metabolites present in C. elegans, which can be used for annotation. Here we present the process of model merging, correction and curation and give a detailed overview of the model. In the future it is intended to expand the model toward different tissues and put special emphasizes on lipid metabolism and secondary metabolism including ascaroside metabolism in accordance to their central role in C. elegans physiology.

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Systems biology analysis using a genome-scale metabolic model shows that phosphine triggers global metabolic suppression in a resistant strain ofC. elegans

Chan

Hattwell

Ebert

et al. 2017

Preprint

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WormJam: A consensusC. elegansMetabolic Reconstruction and Metabolomics Community and Workshop Series

Hastings

Mains

Artal‐Sanz

et al. 2017

Worm

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Jake P. N. Hattwell

Modeling Meets Metabolomics—The WormJam Consensus Model as Basis for Metabolic Studies in the Model Organism Caenorhabditis elegans

Systems biology analysis using a genome-scale metabolic model shows that phosphine triggers global metabolic suppression in a resistant strain ofC. elegans

WormJam: A consensusC. elegansMetabolic Reconstruction and Metabolomics Community and Workshop Series

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