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Literature DB >> 19498442

The role of ubiquitylation for the control of cell death in Drosophila.

Abstract

Ubiquitylation describes a process in which ubiquitin, a 76-amino-acid polypeptide, is covalently attached to target proteins. Traditionally, ubiquitin-conjugated proteins are targeted for degradation by the 26S proteasome. However, non-proteolytic roles in histone regulation, DNA repair and signal transduction have been reported. Here, the role of ubiquitylation in the cell death pathway in Drosophila is reviewed. Interestingly, ubiquitylation serves both pro- and anti-apoptotic functions. Although pro-apoptotic ubiquitylation leads to proteolytic degradation, recent evidence suggests that anti-apoptotic ubiquitylation may involve, at least in part, non-proteolytic functions.

Entities: CellLine Chemical Disease Gene Species

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Year: 2010 PMID： 19498442 PMCID： PMC2813689 DOI： 10.1038/cdd.2009.70

Source DB: PubMed Journal: Cell Death Differ ISSN： 1350-9047 Impact factor: 15.828

77 in total

Review 1. Proteasome-independent functions of ubiquitin in endocytosis and signaling.

Authors: Debdyuti Mukhopadhyay; Howard Riezman
Journal: Science Date: 2007-01-12 Impact factor: 47.728

2. Regulation of the Drosophila ubiquitin ligase DIAP1 is mediated via several distinct ubiquitin system pathways.

Authors: Y Herman-Bachinsky; H-D Ryoo; A Ciechanover; H Gonen
Journal: Cell Death Differ Date: 2007-01-05 Impact factor: 15.828

3. The E1 ubiquitin-activating enzyme Uba1 in Drosophila controls apoptosis autonomously and tissue growth non-autonomously.

Authors: Tom V Lee; Tian Ding; Zhihong Chen; Vani Rajendran; Heather Scherr; Melinda Lackey; Clare Bolduc; Andreas Bergmann
Journal: Development Date: 2007-11-28 Impact factor: 6.868

4. The Drosophila inhibitor of apoptosis (IAP) DIAP2 is dispensable for cell survival, required for the innate immune response to gram-negative bacterial infection, and can be negatively regulated by the reaper/hid/grim family of IAP-binding apoptosis inducers.

Authors: Jun R Huh; Ian Foe; Israel Muro; Chun Hong Chen; Jae Hong Seol; Soon Ji Yoo; Ming Guo; Jin Mo Park; Bruce A Hay
Journal: J Biol Chem Date: 2006-10-26 Impact factor: 5.157

5. Drosophila Omi, a mitochondrial-localized IAP antagonist and proapoptotic serine protease.

Authors: Madhavi Challa; Srinivas Malladi; Brett J Pellock; Douglas Dresnek; Shankar Varadarajan; Y Whitney Yin; Kristin White; Shawn B Bratton
Journal: EMBO J Date: 2007-06-07 Impact factor: 11.598

6. A biochemical analysis of the activation of the Drosophila caspase DRONC.

Authors: L Dorstyn; S Kumar
Journal: Cell Death Differ Date: 2007-12-14 Impact factor: 15.828

7. A ubiquitin ligase complex regulates caspase activation during sperm differentiation in Drosophila.

Authors: Eli Arama; Maya Bader; Gabrielle E Rieckhof; Hermann Steller
Journal: PLoS Biol Date: 2007-10 Impact factor: 8.029

8. echinus, required for interommatidial cell sorting and cell death in the Drosophila pupal retina, encodes a protein with homology to ubiquitin-specific proteases.

Authors: Jeffrey M Copeland; Ian Bosdet; J Douglas Freeman; Ming Guo; Sharon M Gorski; Bruce A Hay
Journal: BMC Dev Biol Date: 2007-07-05 Impact factor: 1.978

9. Drosophila cbl is essential for control of cell death and cell differentiation during eye development.

Authors: Yuan Wang; Christian Werz; Dongbin Xu; Zhihong Chen; Ying Li; Ernst Hafen; Andreas Bergmann
Journal: PLoS One Date: 2008-01-16 Impact factor: 3.240

10. DIAP2 functions as a mechanism-based regulator of drICE that contributes to the caspase activity threshold in living cells.

Authors: Paulo S Ribeiro; Erina Kuranaga; Tencho Tenev; François Leulier; Masayuki Miura; Pascal Meier
Journal: J Cell Biol Date: 2007-12-31 Impact factor: 10.539

20 in total

1. A novel F-box protein is required for caspase activation during cellular remodeling in Drosophila.

Authors: Maya Bader; Eli Arama; Hermann Steller
Journal: Development Date: 2010-04-14 Impact factor: 6.868

2. Genetic characterization of two gain-of-function alleles of the effector caspase DrICE in Drosophila.

Authors: Y Wu; J L Lindblad; J Garnett; H E Kamber Kaya; D Xu; Y Zhao; E R Flores; J Hardy; A Bergmann
Journal: Cell Death Differ Date: 2015-11-06 Impact factor: 15.828

3. The E3 ubiquitin ligase RNF114 and TAB1 degradation are required for maternal-to-zygotic transition.

Authors: Ye Yang; Cheng Zhou; Ying Wang; Weixiao Liu; Chao Liu; Liying Wang; Yujiao Liu; Yongliang Shang; Mingrui Li; Shuai Zhou; Yuanting Wang; Wentao Zeng; Jianli Zhou; Ran Huo; Wei Li
Journal: EMBO Rep Date: 2017-01-10 Impact factor: 8.807

4. Ubr3 E3 ligase regulates apoptosis by controlling the activity of DIAP1 in Drosophila.

Authors: Q Huang; X Tang; G Wang; Y Fan; L Ray; A Bergmann; T Y Belenkaya; X Ling; D Yan; Y Lin; X Ye; W Shi; X Zhou; F Lu; J Qu; X Lin
Journal: Cell Death Differ Date: 2014-08-22 Impact factor: 15.828

Review 5. The Sound of Silence: Signaling by Apoptotic Cells.

Authors: Caitlin E Fogarty; Andreas Bergmann
Journal: Curr Top Dev Biol Date: 2015-09-11 Impact factor: 4.897

6. Non-cell autonomous control of apoptosis by ligand-independent Hedgehog signaling in Drosophila.

Authors: A E Christiansen; T Ding; Y Fan; H K Graves; H-M Herz; J L Lindblad; A Bergmann
Journal: Cell Death Differ Date: 2012-09-28 Impact factor: 15.828

7. Innate immune signaling in Drosophila is regulated by transforming growth factor β (TGFβ)-activated kinase (Tak1)-triggered ubiquitin editing.

Authors: Li Chen; Nicholas Paquette; Shahan Mamoor; Florentina Rus; Anubhab Nandy; John Leszyk; Scott A Shaffer; Neal Silverman
Journal: J Biol Chem Date: 2017-04-04 Impact factor: 5.157