Issue 16, 2023

Large scale microfluidic CRISPR screening for increased amylase secretion in yeast

Abstract

Key to our ability to increase recombinant protein production through secretion is a better understanding of the pathways that interact to translate, process and export mature proteins to the surrounding environment, including the supporting cellular machinery that supplies necessary energy and building blocks. By combining droplet microfluidic screening with large-scale CRISPR libraries that perturb the expression of the majority of coding and non-coding genes in S. cerevisiae, we identified 345 genes for which an increase or decrease in gene expression resulted in increased secretion of α-amylase. Our results show that modulating the expression of genes involved in the trafficking of vesicles, endosome to Golgi transport, the phagophore assembly site, the cell cycle and energy supply improve α-amylase secretion. Besides protein-coding genes, we also find multiple long non-coding RNAs enriched in the vicinity of genes associated with endosomal, Golgi and vacuolar processes. We validated our results by overexpressing or deleting selected genes, which resulted in significant improvements in α-amylase secretion. The advantages, in terms of precision and speed, inherent to CRISPR based perturbations, enables iterative testing of new strains for increased protein secretion.

Graphical abstract: Large scale microfluidic CRISPR screening for increased amylase secretion in yeast

Supplementary files

Article information

Article type
Paper
Submitted
07 Feb 2023
Accepted
07 Jul 2023
First published
24 Jul 2023
This article is Open Access
Creative Commons BY license

Lab Chip, 2023,23, 3704-3715

Large scale microfluidic CRISPR screening for increased amylase secretion in yeast

S. A. Johansson, T. Dulermo, C. Jann, J. D. Smith, A. Pryszlak, G. Pignede, D. Schraivogel, D. Colavizza, T. Desfougères, C. Rave, A. Farwick, C. A. Merten, K. R. Roy, W. Wei and L. M. Steinmetz, Lab Chip, 2023, 23, 3704 DOI: 10.1039/D3LC00111C

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