ISSN:
0749-503X
Keywords:
Protein sorting
;
membranes
;
phospholipid synthesis
;
yeast
;
Saccharomces cerevisiae
;
Life and Medical Sciences
;
Genetics
Source:
Wiley InterScience Backfile Collection 1832-2000
Topics:
Biology
Notes:
The product of the yeast CHO1 gene, phosphatidylserine synthase (PSS), is an integral membrane protein that catalyses a central step in cellular phospholipid biosynthesis. A 1·2 kb fragment containing the regulatory and structural components of the CHO1 gene was sequenced. Transcription initiation in wild-type cells was found to occur between -1 and -15 relative to the first ATG of a large open reading frame capable of encoding a 30 804 molecular weight protein. This translation initiation site was active in vivo and in vivo in a hetrologous system. In both cases it supported production of a protein of approximately 30 000 molecular weight. A second potential translation initiation site was detected 225 or 228 bases dowstream from the first ATG. This second site was active in vitro where it supported production of a protein of 22 400 molecular weight. A subclone, lacking the 5′ regulatory region and the subsequence encoding the first 12 amino acids of the large open reading frame, allowed translation in vivo starting at the second ATG. The resulting protein was 22 000 moleculare weight, lacked the 74 N-terminal amino acids and was capable of complementing the choline auxotroy of a cho1 null-mutant. In transformants carrying this construct, PSS activity and 22 kDa protein was found to be associated with membrane fractions corresponding to mitochondria and endoplasmic reticulum. However, most of the truncated PSS protein accumulated in the cytosol in an inactive form. A hybrd-protein containing the 63 N-terminal amino acids of PSS protein accumulated in the cytosol in a active form. A hybrid-protein containing the 63 N-terminal amino acids of PSS fused to mouse dihydrofolate reductase was found exclusively in the cytosol when expressed in wild-type yeast. Thus, the hydrophilic, highly acidic N-terminus of PSS is required for efficient membrane insertion but does not appear to contain sequences required for a targeting to the membrane compartment.
Additional Material:
6 Ill.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1002/yea.320060406
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