Pub. Date : 2003 Oct 10
PMID : 12890687
5 Functional Relationships(s)Download |
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Sentence | Compound Name | Protein Name | Organism |
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| 1 | The interaction of Apg10p with Apg12p is dependent on the carboxyl-terminal glycine of Apg12p. | Glycine | autophagy related 12 | Homo sapiens | ||
| 2 | The interaction of Apg10p with Apg12p is dependent on the carboxyl-terminal glycine of Apg12p. | Glycine | autophagy related 12 | Homo sapiens | ||
| 3 | Mutational analysis of the predicted active site cysteine (Cys161) within mouse Apg10p shows that mutant Apg10pC161S, which can form a stable intermediate with Apg12p, inhibits Apg12p conjugation even in the presence of Apg7p, while overexpression of Apg7p facilitates formation of an Apg12p-Apg5p conjugate. | Cysteine | autophagy related 12 | Homo sapiens | ||
| 4 | Mutational analysis of the predicted active site cysteine (Cys161) within mouse Apg10p shows that mutant Apg10pC161S, which can form a stable intermediate with Apg12p, inhibits Apg12p conjugation even in the presence of Apg7p, while overexpression of Apg7p facilitates formation of an Apg12p-Apg5p conjugate. | Cysteine | autophagy related 12 | Homo sapiens | ||
| 5 | Mutational analysis of the predicted active site cysteine (Cys161) within mouse Apg10p shows that mutant Apg10pC161S, which can form a stable intermediate with Apg12p, inhibits Apg12p conjugation even in the presence of Apg7p, while overexpression of Apg7p facilitates formation of an Apg12p-Apg5p conjugate. | Cysteine | autophagy related 12 | Homo sapiens | ||