Unprotected Drosophila melanogaster telomeres activate the spindle assembly checkpoint

In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion 1 , 2 . Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio ( cav ) gene, is required to prevent telomeric fusions 3 . Here we show that HOAP-depleted te...

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Published in	Nature genetics Vol. 40; no. 3; pp. 362 - 366
Main Authors	Musarò, Mariarosaria, Ciapponi, Laura, Fasulo, Barbara, Gatti, Maurizio, Cenci, Giovanni
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.03.2008 Nature Publishing Group
Subjects	Agriculture Animal Genetics and Genomics Animals Animals, Genetically Modified Biological and medical sciences Biomedical and Life Sciences Biomedicine Cancer Research Cdc20 Proteins Cell cycle Cell Cycle - genetics Cell Cycle - physiology Cell Cycle Proteins - genetics Cell Cycle Proteins - metabolism Checkpoint Kinase 1 Chromosomal Proteins, Non-Histone - genetics Chromosomal Proteins, Non-Histone - metabolism Cytoskeletal Proteins - metabolism Deoxyribonucleic acid DNA DNA damage DNA Damage - genetics DNA Damage - physiology Drosophila melanogaster Drosophila melanogaster - genetics Drosophila Proteins - genetics Drosophila Proteins - metabolism Endodeoxyribonucleases - genetics Exodeoxyribonucleases - genetics Fundamental and applied biological sciences. Psychology Gene expression Gene Function Gene mutations Genes, cdc Genetic aspects Genetics Genetics of eukaryotes. Biological and molecular evolution Human Genetics Insects letter Mammals Microtubule-Associated Proteins - genetics Models, Biological Mutants Mutation Physiological aspects Protein Binding Protein Kinases - genetics Protein Serine-Threonine Kinases - genetics Proteins Spindle Apparatus - genetics Spindle Apparatus - metabolism Spindle Apparatus - physiology Telomere - metabolism Telomere - physiology Telomeres Yeasts Italy Arthropoda Insecta Invertebrata Drosophila melanogaster Telomere Diptera Drosophilidae
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ISSN	1061-4036 1546-1718 1546-1718
DOI	10.1038/ng.2007.64

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Abstract	In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion 1 , 2 . Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio ( cav ) gene, is required to prevent telomeric fusions 3 . Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15 ) and bubR1 , and also by mutations in mei-41 , mus304 , rad50 , grp and tefu . As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41 -, mus304 -, rad50 -, grp - and tefu -dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition.
AbstractList	In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion. Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio (cav) gene, is required to prevent telomeric fusions. Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15) and bubR1, and also by mutations in mei-41, mus304, rad50, grp and tefu. As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41-, mus304-, rad50-, grp- and tefu-dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition.In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion. Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio (cav) gene, is required to prevent telomeric fusions. Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15) and bubR1, and also by mutations in mei-41, mus304, rad50, grp and tefu. As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41-, mus304-, rad50-, grp- and tefu-dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition. In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion super(2). Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio (cav) gene, is required to prevent telomeric fusions super(3). Here we show that HOAP- depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15) and bubR1, and also by mutations in mei-41, mus304, rad50, grp and tefu. As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41-, mus304-, rad50-, grp- and tefu- dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition. In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion 1 , 2 . Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio ( cav ) gene, is required to prevent telomeric fusions 3 . Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15 ) and bubR1 , and also by mutations in mei-41 , mus304 , rad50 , grp and tefu . As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41 -, mus304 -, rad50 -, grp - and tefu -dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition. In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion. Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio (cav) gene, is required to prevent telomeric fusions. Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15) and bubR1, and also by mutations in mei-41, mus304, rad50, grp and tefu. As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41-, mus304-, rad50-, grp- and tefu-dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition. In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion1, 2. Previous work has shown that the Drosophila HOAP protein, encoded by the caravaggio (cav) gene, is required to prevent telomeric fusions3. Here we show that HOAP-depleted telomeres activate both the DDR and the spindle assembly checkpoint (SAC). The cell cycle arrest elicited by the DDR was alleviated by mutations in mei-41 (encoding ATR), mus304 (ATRIP), grp (Chk1) and rad50 but not by mutations in tefu (ATM). The SAC was partially overridden by mutations in zw10 (also known as mit(1)15) and bubR1, and also by mutations in mei-41, mus304, rad50, grp and tefu. As expected from SAC activation, the SAC proteins Zw10, Zwilch, BubR1 and Cenp-meta (Cenp-E) accumulated at the kinetochores of cav mutant cells. Notably, BubR1 also accumulated at cav mutant telomeres in a mei-41-, mus304-, rad50-, grp- and tefu-dependent manner. Our results collectively suggest that recruitment of BubR1 by dysfunctional telomeres inhibits Cdc20-APC function, preventing the metaphase-to-anaphase transition. [PUBLICATION ABSTRACT]
Audience	Academic
Author	Ciapponi, Laura Gatti, Maurizio Musarò, Mariarosaria Fasulo, Barbara Cenci, Giovanni
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Keywords	Arthropoda Insecta Invertebrata Drosophila melanogaster Telomere Diptera Drosophilidae
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Snippet	In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion 1 , 2 . Previous work has shown that the... In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion. Previous work has shown that the Drosophila... In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion1, 2. Previous work has shown that the... In both yeast and mammals, uncapped telomeres activate the DNA damage response (DDR) and undergo end-to-end fusion super(2). Previous work has shown that the...
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SubjectTerms	Agriculture Animal Genetics and Genomics Animals Animals, Genetically Modified Biological and medical sciences Biomedical and Life Sciences Biomedicine Cancer Research Cdc20 Proteins Cell cycle Cell Cycle - genetics Cell Cycle - physiology Cell Cycle Proteins - genetics Cell Cycle Proteins - metabolism Checkpoint Kinase 1 Chromosomal Proteins, Non-Histone - genetics Chromosomal Proteins, Non-Histone - metabolism Cytoskeletal Proteins - metabolism Deoxyribonucleic acid DNA DNA damage DNA Damage - genetics DNA Damage - physiology Drosophila melanogaster Drosophila melanogaster - genetics Drosophila Proteins - genetics Drosophila Proteins - metabolism Endodeoxyribonucleases - genetics Exodeoxyribonucleases - genetics Fundamental and applied biological sciences. Psychology Gene expression Gene Function Gene mutations Genes, cdc Genetic aspects Genetics Genetics of eukaryotes. Biological and molecular evolution Human Genetics Insects letter Mammals Microtubule-Associated Proteins - genetics Models, Biological Mutants Mutation Physiological aspects Protein Binding Protein Kinases - genetics Protein Serine-Threonine Kinases - genetics Proteins Spindle Apparatus - genetics Spindle Apparatus - metabolism Spindle Apparatus - physiology Telomere - metabolism Telomere - physiology Telomeres Yeasts
Title	Unprotected Drosophila melanogaster telomeres activate the spindle assembly checkpoint
URI	https://link.springer.com/article/10.1038/ng.2007.64 https://www.ncbi.nlm.nih.gov/pubmed/18246067 https://www.proquest.com/docview/222679183 https://www.proquest.com/docview/19789281 https://www.proquest.com/docview/70340087 https://www.proquest.com/docview/762278244
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