Summary
DNA synthesis technology has greatly developed over recent years, serving a growing multi-billion synthetic DNA market. Synthetic DNA is used in projects that optimize reagents, chemicals, crops and other organisms, in projects seeking to increase the manufacturing efficiency for the above, as well as in studies of molecular regulation and other cellular processes. The latter is the focus of the MRG-GRammar H2020 FET project.
As the market and application range for synthetic DNA expand a need arises to test and quality control raw synthetic nucleic acids as well as products built upon such reagents. We have developed a prototype software tool for assessing quality parameters in synthetic DNA libraries and used it in several projects in the framework of MRG-GRammar
We propose to productize this prototype into a stable version that will be availed to a broader synthetic biology community. Our proposed product, SOLQC, is a software system that enables management, control and feedback in projects based on synthetic DNA and its applications.
Requested funding will be used to improve usability and user interface, to expand the implementation of analysis and statistical tools, to produce a stable version available to the scientific community and to commercial entities and, finally, to investigate potential sustainable mechanisms for supporting continued service, including commercial or service models
As the market and application range for synthetic DNA expand a need arises to test and quality control raw synthetic nucleic acids as well as products built upon such reagents. We have developed a prototype software tool for assessing quality parameters in synthetic DNA libraries and used it in several projects in the framework of MRG-GRammar
We propose to productize this prototype into a stable version that will be availed to a broader synthetic biology community. Our proposed product, SOLQC, is a software system that enables management, control and feedback in projects based on synthetic DNA and its applications.
Requested funding will be used to improve usability and user interface, to expand the implementation of analysis and statistical tools, to produce a stable version available to the scientific community and to commercial entities and, finally, to investigate potential sustainable mechanisms for supporting continued service, including commercial or service models
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| Web resources: | https://cordis.europa.eu/project/id/851018 |
| Start date: | 01-07-2019 |
| End date: | 30-06-2020 |
| Total budget - Public funding: | 100 000,00 Euro - 100 000,00 Euro |
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Original description
DNA synthesis technology has greatly developed over recent years, serving a growing multi-billion synthetic DNA market. Synthetic DNA is used in projects that optimize reagents, chemicals, crops and other organisms, in projects seeking to increase the manufacturing efficiency for the above, as well as in studies of molecular regulation and other cellular processes. The latter is the focus of the MRG-GRammar H2020 FET project.As the market and application range for synthetic DNA expand a need arises to test and quality control raw synthetic nucleic acids as well as products built upon such reagents. We have developed a prototype software tool for assessing quality parameters in synthetic DNA libraries and used it in several projects in the framework of MRG-GRammar
We propose to productize this prototype into a stable version that will be availed to a broader synthetic biology community. Our proposed product, SOLQC, is a software system that enables management, control and feedback in projects based on synthetic DNA and its applications.
Requested funding will be used to improve usability and user interface, to expand the implementation of analysis and statistical tools, to produce a stable version available to the scientific community and to commercial entities and, finally, to investigate potential sustainable mechanisms for supporting continued service, including commercial or service models
Status
CLOSEDCall topic
FETOPEN-03-2018-2019-2020Update Date
27-04-2024
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