Multi-omics characterization of the necrotrophic mycoparasite Saccharomycopsis schoenii
Fig 5
Methionine biosynthesis pathway and sulfur compound uptake genes in S. schoenii.
Genes highlighted in blue were upregulated at least two-fold when methionine was missing compared to present (CSM/CSM-Met). Genes highlighted in red were upregulated at least two-fold when prey was present compared to absent, during methionine deprivation (CSM-Met+S.c./CSM-Met). A) Fold change of S. schoenii gene expression during methionine deprived conditions, when prey was present compared to absent (CSM-Met + S.c./CSM-Met). Dotted lines indicate two-fold changes up or down. B) S. schoenii lacks all genes in the sulfate assimilation pathway, but have two methionine permeases (MUP1, MUP3), two copies of the cysteine transporter YCT1 and several copies of SEO1, a putative sulfur compound permease.