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omplex, were also found. The two known B regulatory subunits of PP2A complex, the B9 type subunit Par2 and the B-type subunit Pab1, have not been identified in our pull down assay, presumably due to their low get CEP32496 abundance. We have selected PTPA homologue SPAC1782.05 for further study. with the two catalytic subunits of PP2A, RPH21 and RPH22, and with the structural subunit, TPD3. In contrast, RRD1/YPA1 is required for the activity of another PP2A-like phosphatase, SIT4, with which it interacts physically and genetically. Thus, both the higher sequence identity between S. pombe SPAC1782.05 and S. cerevisiae RRD2/YPA2 and the physical association of SPAC1782.05 with PP2A complex found in our coimmunoprecipitation experiments suggest that SPAC1782.05 is homologous to S. cerevisiae RRD2/YPA2. Thus, we named this gene pta2. Subcellular localization of Pta2 To understand pta2 function within the S. pombe cell, we first analyzed its subcellular localization by tagging the endogenous pta2 locus with the green fluorescent protein. The fusion was expressed under its own promoter and was functional as judged by the phenotype of pta2-GFP cells that was indistinguishable from wild type. Pta2-GFP localized to both the cytoplasm and the nucleus, showing some nuclear enrichment. Similar results were obtained when pta2-GFP was expressed from a multicopy plasmid controlled by the nmt41 promoter. Pta2-GFP also localized at discrete motile foci at the cytoplasm that could possibly correspond to vesicles. Diffuse localization of Pta2-GFP was similar to localization of other components of PP2A complexes in fission yeast, the main catalytic subunit Ppa2, the B-type subunit Pab1 and the B9-type subunits Par1 and Par2, pta1 and pta2 are homologous to S. cerevisiae phosphatase activators RRD1/YPA1 and RRD2/YPA2 The genome of S. cerevisiae contains two paralogous genes encoding PTPAs, RRD1/YPA1 and RRD2/YPA2. In S. pombe, in addition to SPAC1782.05, we identified a second PTPArelated gene, SPAC4F10.04, by homology search. This gene shows 36% sequence identity to SPAC1782.05 at the amino acid level. Sequence comparison of S. pombe PTPAs with their homologues in S. cerevisiae revealed that SPAC1782.05 has higher amino acid sequence identity with RRD2/YPA2 whereas SPAC4F10.04 is closer to RRD1/YPA1. In S. cerevisiae, RRD2/YPA2 is required for the activity and P-Ser/P-Thrspecificity of the catalytic subunit of PP2A and associates in vivo PP2A Role in S. pombe Morphogenesis though the latter two proteins seem to be excluded from the nucleus. Phenotypic characterization of pta2D To further characterize the role of pta2 in S. pombe we generated a deletion of this gene by replacing the entire open reading frame with the ura4 marker. Deletion of pta2 was viable but displayed distinct phenotypic alterations compared to the wild type S. pombe. Similar to the lethality of rrd1Drrd2D strain lacking the two PTPA proteins in S. cerevisiae, a double deletion of the two PTPA related genes in S. pombe pta1Dpta2D was also lethal. pta2D cells were slow growing and cold-sensitive and showed morphological defects ranging from a pear-like phenotype with cells displaying different PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22189973 width at cell tips, to an almost round morphology which was more penetrant at lower temperatures. We also observed high frequency of cell lysis that was also more pronounced at lower temperatures,. The lytic phenotype was not suppressed by sorbitol and cell death occurred mostly during cytokinesis. We also found

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Author: Adenosylmethionine- apoptosisinducer