1995
DOI: 10.1073/pnas.92.5.1550
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Cleavage without anchor addition accompanies the processing of a nascent protein to its glycosylphosphatidylinositol-anchored form.

Abstract: Rough microsomal membranes from most mammalian cells, in the presence of a translation system, process nascent proteins with appropriate COOH-terminal signal peptides to their mature glycosylphosphatidylinositol (GPI)-linked forms. The present study, using preprominiplacental alkaline phosphatase as substrate, shows that as much as 10%Yo of the mature product is cleaved correctly but is not linked to GPI. Some of the factors that influence the relative proportions of GPI linked to free mini-placental alkaline … Show more

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Cited by 42 publications
(31 citation statements)
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“…The nucleophilic ethanolamine component of the GPI anchor reacts with the active carbonyl, and the resultant GPI-anchored protein is then trafficked to the cell surface. This proposed reaction mechanism is supported by the finding that nucleophiles such as hydrazine can replace the GPI anchor in a cell-free assay system for GPI anchoring (Maxwell et al, 1995b;Sharma et al, 1999) and that the process is ATP and GTP independent (Mayor et al, 1991). Interestingly, the GPI signal sequence differs between species, and that of Trypanosoma brucei variable surface glycoprotein functioned poorly when expressed in mammalian cells (Moran and Caras, 1994).…”
mentioning
confidence: 50%
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“…The nucleophilic ethanolamine component of the GPI anchor reacts with the active carbonyl, and the resultant GPI-anchored protein is then trafficked to the cell surface. This proposed reaction mechanism is supported by the finding that nucleophiles such as hydrazine can replace the GPI anchor in a cell-free assay system for GPI anchoring (Maxwell et al, 1995b;Sharma et al, 1999) and that the process is ATP and GTP independent (Mayor et al, 1991). Interestingly, the GPI signal sequence differs between species, and that of Trypanosoma brucei variable surface glycoprotein functioned poorly when expressed in mammalian cells (Moran and Caras, 1994).…”
mentioning
confidence: 50%
“…This signal is recognized by the GPI:protein transamidase complex, which proteolytically cleaves the precursor protein at the amino acid and links the newly generated C terminus to the terminal ethanolamine phosphate (EtN-P) of a preassembled GPI anchor precursor having the structure EtN-PMan 3 GlcN-phosphatidylinositol (PI) (Udenfriend and Kodukula, 1995). The transamidase is thought to form an intermediate with the precursor protein, resulting in an activated carbonyl group at the site (Maxwell et al, 1995b;Sharma et al, 1999). The nucleophilic ethanolamine component of the GPI anchor reacts with the active carbonyl, and the resultant GPI-anchored protein is then trafficked to the cell surface.…”
Section: Introductionmentioning
confidence: 99%
“…The use of this method permits analysis of the effects of another nucleophilic agent, hydroxylamine, which can serve as second alternative donor to the GPI anchor that otherwise would interfere with translation (17). To determine whether COOH-terminal processing of prominiPLAP by RM from mutant K cells could be achieved with hydroxylamine or otherwise forced under experimental conditions used in preloading, we compared posttranslational studies of this type using RM from HeLa, K562 parental, Thy-i-lym- phoma mutant F, and mutant K cells.…”
Section: Resultsmentioning
confidence: 99%
“…To further assess the nature of the block in COOH-terminal processing in mutant K cells, we conducted experiments with hydrazine, which can function as an alternate nucleophile (17) in the transamidation reaction that couples GPI anchor structures to polypeptides. As can be seen in Fig.…”
Section: Resultsmentioning
confidence: 99%
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