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Link to Journal | |
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Download Reprint (PDF) | |
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Figures & Table | |
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Movies From Figure 6 |
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Contact Information for SH Matthiesen | |
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Contact Information for K Kim | |
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Contact Information for BH Satir |
| Abstract: | ||
We
cloned a gene, PRPI, of Toxoplasma gondii encoding a 637-amino-acids
protein having a calculated mass of 70 kDa. The sequence showed high homology
to parafusin, a protein that in Paramecium tetraurelia participates
in Ca2+-regulated exocytosis and is a paralog of phosphoglucomutase. We
show that Toxoplasma gondii homogenate and an expressed recombinant
PRP1 fusion protein cross-react with a specific peptide-derived antibody
to parafusin in Western blots. Antibodies to the recombinant PRP1 showed
cross-reaction with parafusin and recognized PRP1, as bands at M, 63 x
10(3) and 68 x 10(3), respectively. PRP1 is labeled when Toxoplasma
gondii cells are incubated with inorganic 32P and appears as the major
band on autoradiograms of SDS-PAGE gels. The localization of PRP1 was
examined in secretory organelles of Toxoplasma gondii by deconvolution
light microscopy followed by three dimensional reconstruction using pairwise
combinations of specific antibodies. PRP1 localized to the apical third
of the cell. It co-localized with micronemes, the only secretory organelle
the secretion of which is Ca2+ dependent. Quantification of the co-localized
stain suggests that only mature micronemes ready for exocytosis have PRP1.
These findings suggest that PRP1, parafusin and other members of the phosphoglucomutase
superfamily have a conserved role in Ca2+-regulated exocytic processes. |
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