yeast

CRI-SPA: a high-throughput method for systematic genetic editing of yeast libraries

A highly efficient, reproducible and scalable genome editing method

Genome-scale modeling drives 70-fold improvement of intracellular heme production in Saccharomyces cerevisiae

Using computational simulations to find the best way to produce the heme cofactor

Reconstruction of a catalogue of genome-scale metabolic models with enzymatic constraints using GECKO 2.0

Streamlining generation of enzyme-constrained models using GECKO

Proteome allocations change linearly with the specific growth rate of Saccharomyces cerevisiae under glucose limitation

A quantitative multi-omic dataset of _S. cerevisiae_ at increasing growth rates

Emergence of Phenotypically Distinct Subpopulations Is a Factor in Adaptation of Recombinant Saccharomyces cerevisiae under Glucose-Limited Conditions

Studying subpopulations of a _S. cerevisiae_ strain with single-cell level technology

DebaryOmics: an integrative –omics study to understand the halophilic behaviour of Debaryomyces hansenii

Transcriptomics and phosphoproteomic response of _D. hansenii_ to increased salt levels

Benchmarking accuracy and precision of intensity-based absolute quantification of protein abundances in Saccharomyces cerevisiae

How reproducible is the absolute quantification of protein levels?

Combining mechanistic and machine learning models for predictive engineering and optimization of tryptophan metabolism

Over-producing tryptophan using a combination of machine learning and flux balance analysis

Model-Assisted Fine-Tuning of Central Carbon Metabolism in Yeast through dCas9-Based Regulation

Over-producing acetyl/malonyl-CoA using _in silico_ & experimental methods

A consensus S. cerevisiae metabolic model Yeast8 and its ecosystem for comprehensively probing cellular metabolism

The consensus metabolic model of yeast as a standard in the community