EC Number   |
General Information |
Reference |
|---|
    3.1.3.27 | metabolism |
phosphatidylglycerophosphate phosphatase essential for the biosynthesis of cardiolipin, an integral component of mitochondrial and bacterial membranes |
730029 |
| 3.1.3.27 | physiological function |
enzyme is the principal phosphatidylglycerol phosphate phosphatase of Bacillus subtilis. Gene expression complements both undecaprenylphosphate and phosphatidylglycerol metabolisms in Escherichia coli mutant strains |
-, 750277 |
| 3.1.3.27 | physiological function |
expression of Ptpmt1 gene complements the phenotype of a yeast PGPP mutant. A Pgpp1 Ptpmt1 Ptpmt2 mutant significantly enhances the root phenotype of the Pgpp1 mutant without further affecting the photosynthesis |
749968 |
| 3.1.3.27 | physiological function |
expression of Ptpmt2 gene complements the phenotype of a yeast PGPP mutant. A Pgpp1 Ptpmt1 Ptpmt2 mutant significantly enhances the root phenotype of the Pgpp1 mutant without further affecting the photosynthesis |
749968 |
| 3.1.3.27 | physiological function |
mutant plants lacking phosphatidylglycerophosphate phosphatase activity contain reduced amounts of chlorophyll, but photosynthetic quantum yield remains unchanged. The absolute content of plastidial phosphatidylglycerol (34:4; total number of acyl carbons:number of double bonds) is reduced by about 1/3. Expression of Pgpp1 gene complements the defect of a yeast Gep4 mutant |
746083 |
| 3.1.3.27 | physiological function |
mutants defective in Pgpp1 display considerably shorter roots, due to defective order of columella cells in the root apices. A Pgpp1 Ptpmt1 Ptpmt2 mutant additionally lacking mitochondria-localized phosphatases significantly enhances the root phenotype of the Pgpp1 mutant without further affecting the photosynthesis |
749968 |
