%0 Generic %A Ohkuni, Kentaro %A Suva, Evelyn %A Au, Wei-Chun %A Walker, Robert L. %A Levy-Myers, Reuben %A Meltzer, Paul S. %A Baker, Richard E. %A Basrai, Munira A. %D 2020 %T Supplemental Material for Ohkuni et al., 2020 %U https://gsajournals.figshare.com/articles/dataset/Supplemental_Material_for_Ohkuni_et_al_2020/11899908 %R 10.25386/genetics.11899908.v1 %2 https://gsajournals.figshare.com/ndownloader/files/21822651 %K sumoylation %K Cse4 %K chromatin assembly factor-1 %K scm3 %K Saccharomyces cerevisiae %K centromere %K CENP-A %K kinetochore %K budding yeast %K Psh1 %K Genetics %K Molecular Biology %X

Table S1. S. cerevisiae strains used in this study.

Table S2. Plasmids used in this study.

Table S3. Primers used in this study.

Figure S1. The stability of HA-Cse4 K215/216R/A is not increased when compared to HA-Cse4 in a psh1∆ strain.

Figure S2. Levels of chromatin associated Cse4 K215/216R/A are reduced when compared to wild-type Cse4.

Figure S3. Protein levels of Cse4 and Cse4 K215/216R under the copper-inducible promoter.

Figure S4. GAL-cse4 K65R exhibits SDL in slx5∆ and hir2∆ strains and those are suppressed by cse4 K215/216R.

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