CyanoConstruct: a Golden Gate DNA assembly platform for translationally optimized engineered metabolic pathways in Cyanobacteria.
Mohamed, Osama (2023-06-01)
CyanoConstruct: a Golden Gate DNA assembly platform for translationally optimized engineered metabolic pathways in Cyanobacteria.
(01.06.2023)
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suljettu
Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2023061555351
https://urn.fi/URN:NBN:fi-fe2023061555351
Tiivistelmä
Recruiting cyanobacteria as cell factories for bio-production provides a sustainable route for
many products such as biofuels, etc. However, rational engineering of cyanobacteria is
impeded by the unpredictability of heterologous gene expression level which is tuned by
swapping variants of DNA parts in the target DNA construct. Ribosome-binding site (RBS)
modulates heterologous gene expression by determining the translation rate and efficiency.
Nonetheless, the unavailability of cloning methods tailored for RBS switching in the target
DNA constructs hampers the optimization efforts at the translational level in cyanobacterial
hosts.
This work presents a user-friendly Golden Gate-based cloning method, CyanoConstruct,
designed specifically to assemble multi-gene operons with various RBSs in a one-step
reaction. CyanoConstruct was capable of assembling RBS-varied three-gene operons for
ethanol pathway from nine fragments with 10% efficiency as opposed to 100% efficiency
for a two-gene construct. The functionality of the generated three-gene constructs was
verified in Synechocystis sp. PCC 6803 by qualitative detection of ethanol using gas
chromatography. A detected misassembled construct, generated by misannealed overhangs,
was responsible for the undermined efficiency of the three-gene assembly; which was
improved by introducing fragments at two sequential time points into the assembly reaction
to minimize the overhang misannealing.
Overall, CyanoConstruct is an efficient and straightforward cloning method, uniquely
designed to readily construct RBS-varied multi-gene operon to advance RBS-based
optimization of heterologous gene expression in engineered cyanobacteria.
many products such as biofuels, etc. However, rational engineering of cyanobacteria is
impeded by the unpredictability of heterologous gene expression level which is tuned by
swapping variants of DNA parts in the target DNA construct. Ribosome-binding site (RBS)
modulates heterologous gene expression by determining the translation rate and efficiency.
Nonetheless, the unavailability of cloning methods tailored for RBS switching in the target
DNA constructs hampers the optimization efforts at the translational level in cyanobacterial
hosts.
This work presents a user-friendly Golden Gate-based cloning method, CyanoConstruct,
designed specifically to assemble multi-gene operons with various RBSs in a one-step
reaction. CyanoConstruct was capable of assembling RBS-varied three-gene operons for
ethanol pathway from nine fragments with 10% efficiency as opposed to 100% efficiency
for a two-gene construct. The functionality of the generated three-gene constructs was
verified in Synechocystis sp. PCC 6803 by qualitative detection of ethanol using gas
chromatography. A detected misassembled construct, generated by misannealed overhangs,
was responsible for the undermined efficiency of the three-gene assembly; which was
improved by introducing fragments at two sequential time points into the assembly reaction
to minimize the overhang misannealing.
Overall, CyanoConstruct is an efficient and straightforward cloning method, uniquely
designed to readily construct RBS-varied multi-gene operon to advance RBS-based
optimization of heterologous gene expression in engineered cyanobacteria.