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mSphere. 2018 Dec 5;3(6). pii: e00541-18. doi: 10.1128/mSphere.00541-18.

Regulation of Yeast-to-Hyphae Transition in Yarrowia lipolytica.

Author information

1
Chemical & Biological Process Development Group, Pacific Northwest National Laboratory, Richland, Washington, USA kyle.pomraning@pnnl.gov scott.baker@pnnl.gov.
2
Environmental Molecular Sciences Division, Pacific Northwest National Laboratory, Richland, Washington, USA.
3
Department of Biology and Biological Engineering, Chalmers University of Technology, Göteborg, Sweden.
4
DOE Joint Genome Institute, Walnut Creek, California, USA.
5
Chemical & Biological Process Development Group, Pacific Northwest National Laboratory, Richland, Washington, USA.
6
Joint BioEnergy Institute, Lawrence Berkeley National Laboratory, Berkeley, California, USA.
7
Novo Nordisk Foundation Center for Biosustainability, Technical University of Denmark, Lyngby, Denmark.
8
Environmental Molecular Sciences Division, Pacific Northwest National Laboratory, Richland, Washington, USA kyle.pomraning@pnnl.gov scott.baker@pnnl.gov.

Abstract

The yeast Yarrowia lipolytica undergoes a morphological transition from yeast-to-hyphal growth in response to environmental conditions. A forward genetic screen was used to identify mutants that reliably remain in the yeast phase, which were then assessed by whole-genome sequencing. All the smooth mutants identified, so named because of their colony morphology, exhibit independent loss of DNA at a repetitive locus made up of interspersed ribosomal DNA and short 10- to 40-mer telomere-like repeats. The loss of repetitive DNA is associated with downregulation of genes with stress response elements (5'-CCCCT-3') and upregulation of genes with cell cycle box (5'-ACGCG-3') motifs in their promoter region. The stress response element is bound by the transcription factor Msn2p in Saccharomyces cerevisiae We confirmed that the Y. lipolytica msn2 (Ylmsn2) ortholog is required for hyphal growth and found that overexpression of Ylmsn2 enables hyphal growth in smooth strains. The cell cycle box is bound by the Mbp1p/Swi6p complex in S. cerevisiae to regulate G1-to-S phase progression. We found that overexpression of either the Ylmbp1 or Ylswi6 homologs decreased hyphal growth and that deletion of either Ylmbp1 or Ylswi6 promotes hyphal growth in smooth strains. A second forward genetic screen for reversion to hyphal growth was performed with the smooth-33 mutant to identify additional genetic factors regulating hyphal growth in Y. lipolytica Thirteen of the mutants sequenced from this screen had coding mutations in five kinases, including the histidine kinases Ylchk1 and Ylnik1 and kinases of the high-osmolarity glycerol response (HOG) mitogen-activated protein (MAP) kinase cascade Ylssk2, Ylpbs2, and Ylhog1 Together, these results demonstrate that Y. lipolytica transitions to hyphal growth in response to stress through multiple signaling pathways.IMPORTANCE Many yeasts undergo a morphological transition from yeast-to-hyphal growth in response to environmental conditions. We used forward and reverse genetic techniques to identify genes regulating this transition in Yarrowia lipolytica We confirmed that the transcription factor Ylmsn2 is required for the transition to hyphal growth and found that signaling by the histidine kinases Ylchk1 and Ylnik1 as well as the MAP kinases of the HOG pathway (Ylssk2, Ylpbs2, and Ylhog1) regulates the transition to hyphal growth. These results suggest that Y. lipolytica transitions to hyphal growth in response to stress through multiple kinase pathways. Intriguingly, we found that a repetitive portion of the genome containing telomere-like and rDNA repeats may be involved in the transition to hyphal growth, suggesting a link between this region and the general stress response.

KEYWORDS:

Yarrowia ; dimorphic; genomics; molecular genetics; morphology; signaling

PMID:
30518677
PMCID:
PMC6282006
DOI:
10.1128/mSphere.00541-18
[Indexed for MEDLINE]
Free PMC Article

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