Data

SR-SIM raw data - GFP and mRuby3 co-encapsulation

The University of Queensland
Dr Frank Sainsbury (Aggregated by) Dr Frank Sainsbury (Aggregated by) Miss Li Chen Cheah (Aggregated by) Miss Li Chen Cheah (Aggregated by) Professor Gary Schenk (Aggregated by)
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https://creativecommons.org/licenses/by/4.0/deed.en

2022, The University of Queensland

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Contact Information

s4454496@student.uq.edu.au
Australian Institute for Bioengineering and Nanotechnology

Full description

Superresolution structured illumination microscopy (SR-SIM) raw image files for the manuscript "Synthetic in vivo compartmentalisation improves metabolic flux and modulates the product profile of promiscuous enzymes". Data acquired using a Zeiss Elyra PS.1 (Queensland Brain Institute)

Issued: 2022

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Subjects
Biological Sciences | Biocatalysis and Enzyme Technology | Engineering | Industrial Biotechnology | Nanotechnology | eng | synthetic biology |

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Synthetic in vivo compartmentalisation improves metabolic flux and modulates the product profile of promiscuous enzymes

local : UQ:a3b51c7

Cheah, L. C., Liu, L., Plan, M. R., Peng, B., Lu, Z., Schenk, G., Vickers, C. E. and Sainsbury, F. (2022). Synthetic in vivo compartmentalisation improves metabolic flux and modulates the product profile of promiscuous enzymes. BioRxiv. doi: 10.1101/2022.11.24.517869

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local : UQ:289097

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