Development and validation of experimental workflows for a DNA foundry

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dc.contributor.advisor Rizzolio, Flavio it_IT
dc.contributor.author Hirano, Sota <1991> it_IT
dc.date.accessioned 2022-03-18 it_IT
dc.date.accessioned 2022-11-09T09:19:20Z
dc.date.available 2023-07-06T08:47:53Z
dc.date.issued 2022-05-19 it_IT
dc.identifier.uri http://hdl.handle.net/10579/22069
dc.description.abstract Synthetic biology aims to exploit the development of foundational technologies in the current expansion of biotechnology applications that makes the design and manufacturing of engineered biological systems easier and more reliable. Instrumental to fulfil this vision is the decoupling between design and fabrication. Decoupling is defined as breaking down a complex task into simpler and independent ones such that the resulting work can eventually be recombined to produce a functioning whole. This is in stark contrast with the traditional setting where individual researchers needed to carry out different tasks ranging from DNA design to assembly and quality controls. Thus, decoupling enables a team of complementary experts to leverage individual specializations to achieve better outcomes. By decoupling design from fabrication, we empower researchers to design complex constructs irrespective of and independently from the manufacturing technique thus unlocking the full potential of synthetic biology. A typical example is plasmid assembly where the large number of standard plasmid architectures (e.g., SEVA, MoClo, GoldenGate, RFC10) and related assembly techniques actually hinders researchers’ design capabilities rather than enabling it. In this PhD project I focused on the development and validation of DNA fabrication workflows capable of handling multiple assembly techniques completely independent from the design input. The set of workflows developed allows researchers to submit their DNA design without any constraints related to fabrication techniques. The work presented here represents the foundational technology to enable a truly automated DNA foundry for synthetic biology. it_IT
dc.language.iso en it_IT
dc.publisher Università Ca' Foscari Venezia it_IT
dc.rights © Sota Hirano, 2022 it_IT
dc.title Development and validation of experimental workflows for a DNA foundry it_IT
dc.title.alternative Development and validation of experimental workflows for a DNA foundry it_IT
dc.type Doctoral Thesis it_IT
dc.degree.name Scienza e tecnologia dei bio e nanomateriali it_IT
dc.degree.level Dottorato it_IT
dc.degree.grantor Dipartimento di Scienze Molecolari e Nanosistemi it_IT
dc.description.academicyear 2021/2022 - Dottorati_34° Ciclo + 33_11-04-22 it_IT
dc.description.cycle 34
dc.degree.coordinator Rizzolio, Flavio
dc.location.shelfmark D002160
dc.rights.accessrights openAccess it_IT
dc.thesis.matricno 851913 it_IT
dc.format.pagenumber 110 p.
dc.subject.miur BIO/11 BIOLOGIA MOLECOLARE it_IT
dc.description.note it_IT
dc.degree.discipline it_IT
dc.contributor.co-advisor De Lucrezia, Davide it_IT
dc.provenance.upload Sota Hirano (851913@stud.unive.it), 2022-03-18 it_IT
dc.provenance.plagiarycheck Flavio Rizzolio (flavio.rizzolio@unive.it), 2022-04-11 it_IT


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