Abstract
The members of group III hybrid histidine kinases (HHK) are ubiquitous in fungi. Group III HHK have been implicated to function as osmosensors in the high osmolarity glycerol (HOG) pathway that is essential for fungal survival under high osmolarity stress. Recent literature suggests that group III HHK are also involved in conidia formation, virulence in several filamentous fungi, and are an excellent molecular target for antifungal agents. Thus, group III HHK constitute a very important group of sensor kinases. Structurally, group III HHK are distinct from Sln1p, the osmosensing HHK that regulates the HOG pathway in Saccharomyces cerevisiae. Group III HHK lack any transmembrane domain and typically contain HAMP domain repeats at the N terminus. Until now, it is not clear how group III HHK function as an osmosensor to regulate the HOG pathway. To investigate this, we undertook molecular characterization of DhNIK1, an ortholog from osmotolerant yeast Debaryomyces hansenii. We show here that DhNIK1 could complement sln1 mutation in S. cerevisiae thereby confirming its role as a bona fide osmosensor. We further investigated the role of HAMP domains by deleting them systematically. Our results clearly indicate that the HAMP4 domain is crucial for osmosensing by DhNik1p. Most importantly, we also show that the alternative interaction among the HAMP domains regulates the activity of DhNik1p like an "on-off switch" and thus provides, for the first time, an insight into the molecular mechanism of osmosensing by this group of HHKs.
Highlights
Tidine kinases (HHK)3 because the sensor histidine kinase and the receiver domains are present in a single polypeptide
DhNIK1 Complements sln1 Mutation in S. cerevisiae and Localizes in the Cytoplasm—Blast analysis of D. hansenii genome data base revealed the presence of a putative NIK1 ortholog (DhNIK1, accession number XP_462511) encoding a protein of 1116 amino acid residues on the chromosome G
Analysis of the protein sequences by SMART showed the presence of domains that are typically found in group III hybrid histidine kinases (HHK)
Summary
Tidine kinases (HHK)3 because the sensor histidine kinase and the receiver domains are present in a single polypeptide. To determine the role of HAMP domains in the functionality of DhNik1p, we made different constructs carrying deletion in HAMP domains. For ⌬H1, a construct designed to produce a DhNik1p mutant lacking first HAMP domain (53–108 amino acid residues), two PCRs were carried out utilizing primer pairs Dnik-NcoIF/⌬H1delR and ⌬H1delF/ HAMPR-EcoRI.
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