The budding yeast Fkh1 Forkhead associated (FHA) domain promotes a G1-chromatin state and the activity of chromosomal DNA replication origins
Hoggard, Timothy, Chacin, Erika, Hollatz, Allison J, Kurat, Christoph F, Fox, Catherine A
Published in PLoS genetics (05.08.2024)
Published in PLoS genetics (05.08.2024)
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Yeast heterochromatin regulators Sir2 and Sir3 act directly at euchromatic DNA replication origins
Hoggard, Timothy A, Chang, FuJung, Perry, Kelsey Rae, Subramanian, Sandya, Kenworthy, Jessica, Chueng, Julie, Shor, Erika, Hyland, Edel M, Boeke, Jef D, Weinreich, Michael, Fox, Catherine A
Published in PLoS genetics (24.05.2018)
Published in PLoS genetics (24.05.2018)
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Binding of the Fkh1 Forkhead Associated Domain to a Phosphopeptide within the Mph1 DNA Helicase Regulates Mating-Type Switching in Budding Yeast
Dummer, Antoinette M, Su, Zhangli, Cherney, Rachel, Choi, Koyi, Denu, John, Zhao, Xiaolan, Fox, Catherine A
Published in PLoS genetics (03.06.2016)
Published in PLoS genetics (03.06.2016)
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Palmitoylation controls the dynamics of budding-yeast heterochromatin via the telomere-binding protein Rif1
Park, Sookhee, Patterson, Erin E, Cobb, Jenel, Audhya, Anjon, Gartenberg, Marc R, Fox, Catherine A
Published in Proceedings of the National Academy of Sciences - PNAS (30.08.2011)
Published in Proceedings of the National Academy of Sciences - PNAS (30.08.2011)
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Fkh1 and Fkh2 bind multiple chromosomal elements in the S. cerevisiae genome with distinct specificities and cell cycle dynamics
Ostrow, A Zachary, Nellimoottil, Tittu, Knott, Simon R V, Fox, Catherine A, Tavaré, Simon, Aparicio, Oscar M
Published in PloS one (04.02.2014)
Published in PloS one (04.02.2014)
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A Link between ORC-origin binding mechanisms and origin activation time revealed in budding yeast
Hoggard, Timothy, Shor, Erika, Müller, Carolin A, Nieduszynski, Conrad A, Fox, Catherine A
Published in PLoS genetics (01.09.2013)
Published in PLoS genetics (01.09.2013)
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The conserved bromo-adjacent homology domain of yeast Orc1 functions in the selection of DNA replication origins within chromatin
Müller, Philipp, Park, Sookhee, Shor, Erika, Huebert, Dana J, Warren, Christopher L, Ansari, Aseem Z, Weinreich, Michael, Eaton, Matthew L, MacAlpine, David M, Fox, Catherine A
Published in Genes & development (01.07.2010)
Published in Genes & development (01.07.2010)
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Structural basis of the Sir1-origin recognition complex interaction in transcriptional silencing
Hou, Z, Bernstein, D.A, Fox, C.A, Keck, J.L
Published in Proceedings of the National Academy of Sciences - PNAS (14.06.2005)
Published in Proceedings of the National Academy of Sciences - PNAS (14.06.2005)
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High Throughput Analyses of Budding Yeast ARSs Reveal New DNA Elements Capable of Conferring Centromere-Independent Plasmid Propagation
Hoggard, Timothy, Liachko, Ivan, Burt, Cassaundra, Meikle, Troy, Jiang, Katherine, Craciun, Gheorghe, Dunham, Maitreya J, Fox, Catherine A
Published in G3 : genes - genomes - genetics (01.04.2016)
Published in G3 : genes - genomes - genetics (01.04.2016)
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The origin recognition complex interacts with a subset of metabolic genes tightly linked to origins of replication
Shor, Erika, Warren, Christopher L, Tietjen, Joshua, Hou, Zhonggang, Müller, Ulrika, Alborelli, Ilaria, Gohard, Florence H, Yemm, Adrian I, Borisov, Lev, Broach, James R, Weinreich, Michael, Nieduszynski, Conrad A, Ansari, Aseem Z, Fox, Catherine A
Published in PLoS genetics (01.12.2009)
Published in PLoS genetics (01.12.2009)
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Yeast ORC sumoylation status fine-tunes origin licensing
Regan-Mochrie, Gemma, Hoggard, Timothy, Bhagwat, Nikhil, Lynch, Gerard, Hunter, Neil, Remus, Dirk, Fox, Catherine A, Zhao, Xiaolan
Published in Genes & development (01.07.2022)
Published in Genes & development (01.07.2022)
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Sir2 mitigates an intrinsic imbalance in origin licensing efficiency between early- and late-replicating euchromatin
Hoggard, Timothy, Müller, Carolin A., Nieduszynski, Conrad A., Weinreich, Michael, Fox, Catherine A.
Published in Proceedings of the National Academy of Sciences - PNAS (23.06.2020)
Published in Proceedings of the National Academy of Sciences - PNAS (23.06.2020)
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The Origin Recognition Complex and Sir4 Protein Recruit Sir1p to Yeast Silent Chromatin through Independent Interactions Requiring a Common Sir1p Domain
Bose, Melissa E., McConnell, Kristopher H., Gardner-Aukema, Kelly A., Müller, Ulrika, Weinreich, Michael, Keck, James L., Fox, Catherine A.
Published in Molecular and Cellular Biology (01.01.2004)
Published in Molecular and Cellular Biology (01.01.2004)
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