AI Article Synopsis
- Most of the ATP in cells is produced in the mitochondria from ADP and phosphate (Pi), with specific carriers transporting these substrates across the inner membrane.
- Research on the yeast Saccharomyces cerevisiae identified a new phosphate carrier, named PIC2, in addition to the previously known mitochondrial Pi carrier MIR1, indicating that multiple isoforms may exist.
- Overexpressing PIC2 can compensate for defects in phosphate transport in specific mutant strains and suggests that Pic2p might be important under stress conditions, with its levels increasing at higher temperatures.
Article Abstract
Most cellular ATP is produced within the mitochondria from ADP and Pi which are delivered across the inner-membrane by specific nuclearly encoded polytopic carriers. In Saccharomyces cerevisiae, some of these carriers and in particular the ADP/ATP carrier, are represented by several related isoforms that are distinct in their pattern of expression. Until now, only one mitochondrial Pi carrier (mPic) form, encoded by the MIR1 gene in S. cerevisiae, has been described. Here we show that the gene product encoded by the YER053C ORF also participates in the delivery of phosphate to the mitochondria. We have called this gene PIC2 for Pi carrier isoform 2. Overexpression of PIC2 compensates for the mitochondrial defect of the double mutant Deltamir1 Deltapic2 and restores phosphate transport activity in mitochondria swelling experiments. The existence of two isoforms of mPic does not seem to be restricted to S. cerevisiae as two Arabidopsis thaliana cDNAs encoding two different mPic-like proteins are also able to complement the double mutant Deltamir1 Deltapic2. Finally, we demonstrate that Pic2p is a mitochondrial protein and that its steady state level increases at high temperature. We propose that Pic2p is a minor form of mPic which plays a role under specific stress conditions.
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| http://dx.doi.org/10.1046/j.1365-2958.2003.03810.x | DOI Listing |
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