Abstract
In Saccharomyces cerevisiae, the phosphate signal transduction PHO pathway is involved in regulating several phosphate-responsive genes such as PHO5, which encodes repressible acid phosphatase. In this pathway, a cyclin-dependent kinase inhibitor (Pho81p) regulates the kinase activity of the cyclin-cyclin-dependent kinase complex Pho80p-Pho85p, which phosphorylates the transcription factor Pho4p in response to intracellular phosphate levels. However, how cells sense phosphate availability and transduce the phosphate signal to Pho81p remains unknown. To identify additional components of the PHO pathway, we have screened a collection of yeast deletion strains. We found that disruptants of PLC1, ARG82, and KCS1, which are involved in the synthesis of inositol polyphosphate, and ADK1, which encodes adenylate kinase, constitutively express PHO5. Each of these factors functions upstream of Pho81p and negatively regulates the PHO pathway independently of intracellular orthophosphate levels. Overexpression of KCS1, but not of the other genes, suppressed PHO5 expression in the wild-type strain under low phosphate conditions. These results raise the possibility that diphosphoinositol tetrakisphosphate and/or bisdiphosphoinositol triphosphate may be essential for regulation of the PHO pathway. Furthermore, the Deltaplc1, Deltaarg82, and Deltakcs1 deletion strains, but not the Deltaipk1 deletion strain, had significantly reduced intracellular polyphosphate levels, suggesting that enzymes involved in inositol pyrophosphate synthesis are also required for polyphosphate accumulation.
Highlights
Inorganic phosphate is an essential nutrient for all organisms, being required for many metabolic processes such as the biosynthesis of nucleic acids and phospholipids, energy metabolism, and signal transduction
Genome-wide Screening for Deletion Mutants Defective in Phosphate Signaling—To identify additional factors involved in the PHO pathway, we systematically screened a collection of 4828 haploid yeast deletion mutants of nonessential genes for mutants that showed defects in phosphate signal transduction
Overexpression of KCS1 Suppresses PHO5 Expression under Low Phosphate Conditions—Because enzymes involved in inositol pyrophosphate synthesis appear to be essential for the regulation of PHO5 expression independently of intracellular orthophosphate levels, we considered that overexpressing each of these enzymes might be sufficient to suppress PHO5 expression
Summary
BY4741 BY4742 Haploid PHY77 PHY253 PHY86 PHY94 PHY104 PHY116 PHY121 PHY129 PHY174 PHY179 PHY204. MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 As BY4742, orf::kanMX4 a MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 pho3::CgHIS3 MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 pho81::kanMX4 MAT␣ his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 pho4::kanMX4 MAT␣ his3⌬1 leu2⌬0 ura3⌬0 pho3::CgLEU2 pho80::kanMX4 MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 plc1::kanMX4 MAT␣ his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 arg82::kanMX4 MAT␣ his3⌬1 leu2⌬0 ura3⌬0 pho3::CgLEU2 kcs1::kanMX4 MAT␣ his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 ipk1::kanMX4 MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 adk1::kanMX4 MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 pho81::kanMX4. MATa his3⌬1 leu2⌬0 ura3⌬0 pho3::CgLEU2 pho81::kanMX4 kcs1::kanMX4 MAT␣ his3⌬1 leu2⌬0 lys2⌬0 ura3⌬0 pho3::CgLEU2 pho81::kanMX4 adk1::kanMX4 MATa his3⌬1 leu2⌬0 ura3⌬0 pho3::CgLEU2 phm3::kanMX4 MAT␣ his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 pho84::kanMX4 MAT␣ his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 pho84::kanMX4. MATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 pho3::CgLEU2 adk1::kanMX4 phm3::kanMX4 a orf, open reading frame; CgLEU2, C. glabrata LEU2; CgHIS3, C. glabrata HIS3.
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