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J Exp Bot ; 70(9): 2403-2418, 2019 04 29.
Article in English | MEDLINE | ID: mdl-30615184

ABSTRACT

A recent initiative named 'Crops in silico' proposes that multi-scale models 'have the potential to fill in missing mechanistic details and generate new hypotheses to prioritize directed engineering efforts' in plant science, particularly directed to crop species. To that end, the group called for 'a paradigm shift in plant modelling, from largely isolated efforts to a connected community'. 'Wet' (experimental) research has been especially productive in plant science, since the adoption of Arabidopsis thaliana as a laboratory model species allowed the emergence of an Arabidopsis research community. Parts of this community invested in 'dry' (theoretical) research, under the rubric of Systems Biology. Our past research combined concepts from Systems Biology and crop modelling. Here we outline the approaches that seem most relevant to connected, 'digital organism' initiatives. We illustrate the scale of experimental research required, by collecting the kinetic parameter values that are required for a quantitative, dynamic model of a gene regulatory network. By comparison with the Systems Biology Markup Language (SBML) community, we note computational resources and community structures that will help to realize the potential for plant Systems Biology to connect with a broader crop science community.


Subject(s)
Crops, Agricultural/physiology , Systems Biology/methods , Arabidopsis/genetics , Arabidopsis/metabolism , Arabidopsis/physiology , Crops, Agricultural/genetics , Crops, Agricultural/metabolism , Gene Regulatory Networks/genetics , Gene Regulatory Networks/physiology , Kinetics
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