Covalent Modification of p73α by SUMO-1
Two-hybrid screening in yeast with p73α isolated SUMO-1 ( s mall u biquitin-like mo difier 1 ), the enzyme responsible for its conjugation, Ubc-9, and a number of novel SUMO-1-interacting proteins, including thymine DNA glycosylase, PM-Scl75, PIASx, PKY, and CHD3/ZFH. A subset of these proteins con...
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| Veröffentlicht in: | The Journal of biological chemistry 2000-11, Vol.275 (46), p.36316 |
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| container_title | The Journal of biological chemistry |
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| creator | Adrian Minty Xavier Dumont Mourad Kaghad Daniel Caput |
| description | Two-hybrid screening in yeast with p73α isolated SUMO-1 ( s mall u biquitin-like mo difier 1 ), the enzyme responsible for its conjugation, Ubc-9, and a number of novel SUMO-1-interacting proteins, including thymine
DNA glycosylase, PM-Scl75, PIASx, PKY, and CHD3/ZFH. A subset of these proteins contain a common motif, hhX S X S/T aaa , where h is a hydrophobic amino acid and a is an acidic amino acid, that is shown to interact with SUMO-1 in the two-hybrid system. We show here that p73α, but not
p73β, can be covalently modified by SUMO-1. The major SUMO-1-modified residue in p73α is the C-terminal lysine (Lys 627 ). The sequence surrounding this lysine conforms to a consensus SUMO-1 modification site b ( X ) XXh K X E, where b is a basic amino acid. SUMO-1-modified p73 is more rapidly degraded by the proteasome than unmodified p73, although SUMO-1
modification is not required for p73 degradation. SUMO-1 modification does not affect the transcriptional activity of p73α
on an RGC-luciferase reporter gene in SK-N-AS cells. Instead, SUMO-1 modification may alter the subcellular localization of
p73, because SUMO-1-modified p73 is preferentially found in detergent-insoluble fractions. Alternatively, it may modulate
the interaction of p73 with other proteins that are substrates for SUMO-1 modification or which interact with SUMO-1, such
as those identified here. |
| doi_str_mv | 10.1074/jbc.M004293200 |
| format | Article |
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DNA glycosylase, PM-Scl75, PIASx, PKY, and CHD3/ZFH. A subset of these proteins contain a common motif, hhX S X S/T aaa , where h is a hydrophobic amino acid and a is an acidic amino acid, that is shown to interact with SUMO-1 in the two-hybrid system. We show here that p73α, but not
p73β, can be covalently modified by SUMO-1. The major SUMO-1-modified residue in p73α is the C-terminal lysine (Lys 627 ). The sequence surrounding this lysine conforms to a consensus SUMO-1 modification site b ( X ) XXh K X E, where b is a basic amino acid. SUMO-1-modified p73 is more rapidly degraded by the proteasome than unmodified p73, although SUMO-1
modification is not required for p73 degradation. SUMO-1 modification does not affect the transcriptional activity of p73α
on an RGC-luciferase reporter gene in SK-N-AS cells. Instead, SUMO-1 modification may alter the subcellular localization of
p73, because SUMO-1-modified p73 is preferentially found in detergent-insoluble fractions. Alternatively, it may modulate
the interaction of p73 with other proteins that are substrates for SUMO-1 modification or which interact with SUMO-1, such
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DNA glycosylase, PM-Scl75, PIASx, PKY, and CHD3/ZFH. A subset of these proteins contain a common motif, hhX S X S/T aaa , where h is a hydrophobic amino acid and a is an acidic amino acid, that is shown to interact with SUMO-1 in the two-hybrid system. We show here that p73α, but not
p73β, can be covalently modified by SUMO-1. The major SUMO-1-modified residue in p73α is the C-terminal lysine (Lys 627 ). The sequence surrounding this lysine conforms to a consensus SUMO-1 modification site b ( X ) XXh K X E, where b is a basic amino acid. SUMO-1-modified p73 is more rapidly degraded by the proteasome than unmodified p73, although SUMO-1
modification is not required for p73 degradation. SUMO-1 modification does not affect the transcriptional activity of p73α
on an RGC-luciferase reporter gene in SK-N-AS cells. Instead, SUMO-1 modification may alter the subcellular localization of
p73, because SUMO-1-modified p73 is preferentially found in detergent-insoluble fractions. Alternatively, it may modulate
the interaction of p73 with other proteins that are substrates for SUMO-1 modification or which interact with SUMO-1, such
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DNA glycosylase, PM-Scl75, PIASx, PKY, and CHD3/ZFH. A subset of these proteins contain a common motif, hhX S X S/T aaa , where h is a hydrophobic amino acid and a is an acidic amino acid, that is shown to interact with SUMO-1 in the two-hybrid system. We show here that p73α, but not
p73β, can be covalently modified by SUMO-1. The major SUMO-1-modified residue in p73α is the C-terminal lysine (Lys 627 ). The sequence surrounding this lysine conforms to a consensus SUMO-1 modification site b ( X ) XXh K X E, where b is a basic amino acid. SUMO-1-modified p73 is more rapidly degraded by the proteasome than unmodified p73, although SUMO-1
modification is not required for p73 degradation. SUMO-1 modification does not affect the transcriptional activity of p73α
on an RGC-luciferase reporter gene in SK-N-AS cells. Instead, SUMO-1 modification may alter the subcellular localization of
p73, because SUMO-1-modified p73 is preferentially found in detergent-insoluble fractions. Alternatively, it may modulate
the interaction of p73 with other proteins that are substrates for SUMO-1 modification or which interact with SUMO-1, such
as those identified here.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>10961991</pmid><doi>10.1074/jbc.M004293200</doi></addata></record> |
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| language | eng |
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| source | EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection |
| title | Covalent Modification of p73α by SUMO-1 |
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