A ubiquitin-like system mediates protein lipidation

被引：0

作者：

Yoshinobu Ichimura

Takayoshi Kirisako

Toshifumi Takao

Yoshinori Satomi

Yasutsugu Shimonishi

Naotada Ishihara

Noboru Mizushima

Isei Tanida

Eiki Kominami

Mariko Ohsumi

Takeshi Noda

Yoshinori Ohsumi

机构：

[1] National Institute for Basic Biology,Department of Cell Biology

[2] School of Life Science,Department of Molecular Biomechanics

[3] The Graduate University for Advanced Studies,Department of Biosciences

[4] Institute for Protein Research,Department of Biochemistry

[5] Osaka University,undefined

[6] PRESTO,undefined

[7] Japan Science and Technology Corporation (JST),undefined

[8] High Tech Research Center,undefined

[9] Teikyo University of Science and Technology,undefined

[10] Juntendo University School of Medicine,undefined

来源：

Nature | 2000年 / 408卷

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摘要：

Autophagy is a dynamic membrane phenomenon for bulk protein degradation in the lysosome/vacuole1,2. Apg8/Aut7 is an essential factor for autophagy in yeast3,4,5. We previously found that the carboxy-terminal arginine of nascent Apg8 is removed by Apg4/Aut2 protease, leaving a glycine residue at the C terminus6. Apg8 is then converted to a form (Apg8-X) that is tightly bound to the membrane6. Here we report a new mode of protein lipidation. Apg8 is covalently conjugated to phosphatidylethanolamine through an amide bond between the C-terminal glycine and the amino group of phosphatidylethanolamine. This lipidation is mediated by a ubiquitination-like system. Apg8 is a ubiquitin-like protein that is activated by an E1 protein, Apg7 (refs 7, 8), and is transferred subsequently to the E2 enzymes Apg3/Aut1 (ref. 9). Apg7 activates two different ubiquitin-like proteins, Apg12 (ref. 10) and Apg8, and assigns them to specific E2 enzymes, Apg10 (ref. 11) and Apg3, respectively. These reactions are necessary for the formation of Apg8-phosphatidylethanolamine. This lipidation has an essential role in membrane dynamics during autophagy6.

引用

页码：488 / 492

页数：4

共 62 条

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