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A mechanism for inhibiting the SUMO pathway
scientific article
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instance of
scholarly article
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title
A mechanism for inhibiting the SUMO pathway
(English)
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author
Ronald Hay
object named as
Ronald T Hay
series ordinal
3
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Giulio F Draetta
series ordinal
4
object named as
Giulio F Draetta
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author name string
Roberto Boggio
series ordinal
1
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Riccardo Colombo
series ordinal
2
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Susanna Chiocca
series ordinal
5
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language of work or name
English
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publication date
19 November 2004
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published in
Molecular Cell
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volume
16
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page(s)
549-61
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issue
4
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cites work
The ubiquitin-like protein Smt3p is activated for conjugation to other proteins by an Aos1p/Uba2p heterodimer
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Regulation of heat shock transcription factor 1 by stress-induced SUMO-1 modification
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SUMO promotes HDAC-mediated transcriptional repression.
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Epstein-barr virus immediate-early protein BZLF1 is SUMO-1 modified and disrupts promyelocytic leukemia bodies
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Covalent attachment of the SUMO-1 protein to the negative regulatory domain of the c-Myb transcription factor modifies its stability and transactivation capacity
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Post-translational modification by the small ubiquitin-related modifier SUMO has big effects on transcription factor activity
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Sumo-1 modification regulates the DNA binding activity of heat shock transcription factor 2, a promyelocytic leukemia nuclear body associated transcription factor
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Ubiquitin-like proteins: new wines in new bottles
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Modification with SUMO. A role in transcriptional regulation
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Cellular proteins localized at and interacting within ND10/PML nuclear bodies/PODs suggest functions of a nuclear depot
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Polymeric chains of SUMO-2 and SUMO-3 are conjugated to protein substrates by SAE1/SAE2 and Ubc9.
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Nuclear and unclear functions of SUMO
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
The SUMO E3 ligase RanBP2 promotes modification of the HDAC4 deacetylase
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Histone deacetylase 1 inactivation by an adenovirus early gene product.
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Activation of heat-shock response by an adenovirus is essential for virus replication.
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SUMO--nonclassical ubiquitin
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SUMO modification of Huntingtin and Huntington's disease pathology
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Protein modification by SUMO
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Evolution and function of ubiquitin-like protein-conjugation systems
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Association of the human SUMO-1 protease SENP2 with the nuclear pore
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
The adenovirus protein Gam1 interferes with sumoylation of histone deacetylase 1.
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Histone sumoylation is associated with transcriptional repression
1 reference
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Modulation of p120E4F transcriptional activity by the Gam1 adenoviral early protein
1 reference
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COCI
retrieved
2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
A new protease required for cell-cycle progression in yeast
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SUMO-1 modification of histone deacetylase 1 (HDAC1) modulates its biological activities
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Identification of the enzyme required for activation of the small ubiquitin-like protein SUMO-1
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SENP1 enhances androgen receptor-dependent transcription through desumoylation of histone deacetylase 1
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SUMO-1 protease-1 regulates gene transcription through PML
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Transcription factor Sp3 is silenced through SUMO modification by PIAS1
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
DNA viruses and viral proteins that interact with PML nuclear bodies
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COCI
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
A novel ubiquitin-like modification modulates the partitioning of the Ran-GTPase-activating protein RanGAP1 between the cytosol and the nuclear pore complex
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Dynamic Interplay of the SUMO and ERK Pathways in Regulating Elk-1 Transcriptional Activity
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2 April 2022
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https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
p300 Transcriptional Repression Is Mediated by SUMO Modification
2 references
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COCI
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
stated in
COCI
retrieved
2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/citations/10.1016/S1097-2765(03)00141-2
Herpes simplex virus 1 ICP0 co-localizes with a SUMO-specific protease
1 reference
stated in
COCI
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2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
SUMO-1 modification represses Sp3 transcriptional activation and modulates its subnuclear localization
1 reference
stated in
COCI
retrieved
2 April 2022
reference URL
https://opencitations.net/index/coci/api/v1/references/10.1016/J.MOLCEL.2004.11.007
Identifiers
DOI
10.1016/J.MOLCEL.2004.11.007
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PubMed ID
15546615
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ResearchGate publication ID
8179744
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