Constructing synthetic biology workflows in the cloud

Constructing synthetic biology workflows in the cloud

The synthetic biology design process has traditionally been heavily dependent upon manual searching, acquisition and integration of existing biological data. A large amount of such data is already available from Internet‐based resources, but data exchange between these resources is often undertaken...

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Bibliographic Details
Published in:Engineering biology Vol. 1; no. 1; pp. 61 - 65
Main Authors: Mısırlı, Göksel, Madsen, Curtis, Murieta, Iñaki Sainz, Bultelle, Matthieu, Flanagan, Keith, Pocock, Matthew, Hallinan, Jennifer, McLaughlin, James Alastair, Clark‐Casey, Justin, Lyne, Mike, Micklem, Gos, Stan, Guy‐Bart, Kitney, Richard, Wipat, Anil
Format: Journal Article
Language:English
Published: London The Institution of Engineering and Technology 01-06-2017
John Wiley & Sons, Inc
Wiley
Subjects:
Automation
Availability
Bioinformatics
Biological activity
Biology
cloud computing
Cloud‐based system
Communication
computational workflows
Computer applications
Data exchange
Distributed processing
Internet
Protocol for Linking External Nodes
Software
Synthetic biology
Task complexity
Workflow
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Summary:The synthetic biology design process has traditionally been heavily dependent upon manual searching, acquisition and integration of existing biological data. A large amount of such data is already available from Internet‐based resources, but data exchange between these resources is often undertaken manually. Automating the communication between different resources can be done by the generation of computational workflows to achieve complex tasks that cannot be carried out easily or efficiently by a single resource. Computational workflows involve the passage of data from one resource, or process, to another in a distributed computing environment. In a typical bioinformatics workflow, the predefined order in which processes are invoked in a synchronous fashion and are described in a workflow definition document. However, in synthetic biology the diversity of resources and manufacturing tasks required favour a more flexible model for process execution. Here, the authors present the Protocol for Linking External Nodes (POLEN), a Cloud‐based system that facilitates synthetic biology design workflows that operate asynchronously. Messages are used to notify POLEN resources of events in real time, and to log historical events such as the availability of new data, enabling networks of cooperation. POLEN can be used to coordinate the integration of different synthetic biology resources, to ensure consistency of information across distributed repositories through added support for data standards, and ultimately to facilitate the synthetic biology life cycle for designing and implementing biological systems.
ISSN:2398-6182
2398-6182
DOI:10.1049/enb.2017.0001