Oligomerization of pro‐opiomelanocortin is independent of pH, calcium and the sorting signal for the regulated secretory pathway

Cawley Niamh X; Chen Anthony; Loh Y.Peng; Normant Emmanuel

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Oligomerization of pro‐opiomelanocortin is independent of pH, calcium and the sorting signal for the regulated secretory pathway

机译：促黑素皮质素的寡聚化与pH值，钙和调节分泌途径的分类信号无关

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>Studies indicate that pro-opiomelanocortin (POMC) is sorted to the regulated secretory pathway by binding to a sorting receptor identified as membrane-bound carboxypeptidase E (CPE) [Cool et al. (1997) Cell 88, 73–83]. The efficiency of this sorting mechanism could be enhanced if POMC molecules were to self-associate to form oligomers, prior or subsequent to binding to CPE. Using cross-linking and gel filtration techniques, we demonstrated that POMC forms oligomers at both neutral and acidic pHs and calcium was not necessary. ΔN-POMC, which lacks the N-terminal sorting signal for the regulated secretory pathway, also formed similar oligomers, indicating that the sorting and oligomerization domains are different.

机译：研究表明，通过与识别为膜结合的羧肽酶E（CPE）的分选受体结合，可以将前-opiomelanocortin（POMC）分选到调节的分泌途径中[Cool et al.。（1997）Cell 88，73-83]。如果POMC分子在结合CPE之前或之后自缔合形成寡聚物，则可以提高这种分类机制的效率。使用交联和凝胶过滤技术，我们证明了POMC在中性和酸性pH均形成低聚物，而钙则不是必需的。缺少用于调节的分泌途径的N端分选信号的ΔN-POMC也形成了相似的低聚物，表明分选和低聚结构域是不同的。

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《FEBS Letters》 |2000年第1期|共页
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Cawley Niamh X; Chen Anthony; Loh Y.Peng; Normant Emmanuel;
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6. Identification of a sorting signal for the regulated secretory pathway at the N-terminus of pro-opiomelanocortin [O] . D.R. Cool, Y. Peng Loh -1

机译：鉴定视紫黑皮质素N端分泌调节途径的分类信号
7. Oligomerization of pro-opiomelanocortin is independent of pH, calcium and the sorting signal for the regulated secretory pathway [O] . Cawley Niamh X, Normant Emmanuel, Chen Anthony, 2000

机译：促黑素皮质素的寡聚化与pH值，钙和调节分泌途径的分选信号无关

Oligomerization of pro‐opiomelanocortin is independent of pH, calcium and the sorting signal for the regulated secretory pathway

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