| S. cerevisiae Cells Can Grow without the Pds5 Cohesin Subunit. | S. cerevisiae Cells Can Grow without the Pds5 Cohesin Subunit.
Choudhary K, Itzkovich Z, Alonso-Perez E, Bishara H, Dunn B, Sherlock G, Kupiec M., Free PMC Article | 09/17/2022 |
| Smc3 acetylation, Pds5 and Scc2 control the translocase activity that establishes cohesin-dependent chromatin loops. | Smc3 acetylation, Pds5 and Scc2 control the translocase activity that establishes cohesin-dependent chromatin loops.
Bastié N, Chapard C, Dauban L, Gadal O, Beckouët F, Koszul R. | 06/25/2022 |
| ESA1 regulates meiotic chromosome axis and crossover frequency via acetylating histone H4. | ESA1 regulates meiotic chromosome axis and crossover frequency via acetylating histone H4.
Wang Y, Zhai B, Tan T, Yang X, Zhang J, Song M, Tan Y, Yang X, Chu T, Zhang S, Wang S, Zhang L., Free PMC Article | 11/6/2021 |
| PDS5A and PDS5B in Cohesin Function and Human Disease. | PDS5A and PDS5B in Cohesin Function and Human Disease.
Zhang N, Coutinho LE, Pati D., Free PMC Article | 06/26/2021 |
| Pds5+Rec8] promotes double-strand break formation, maintains homolog bias for crossover formation and promotes S-phase progression. | Recruitment of Rec8, Pds5 and Rad61/Wapl to meiotic homolog pairing, recombination, axis formation and S-phase.
Hong S, Joo JH, Yun H, Kleckner N, Kim KP., Free PMC Article | 06/6/2020 |
| the integrity of the Pds5-Scc1 interface is indispensable for the recruitment of Pds5 to cohesin, and that its abrogation results in loss of sister chromatid cohesion and cell viability. | Structure of the Pds5-Scc1 Complex and Implications for Cohesin Function.
Muir KW, Kschonsak M, Li Y, Metz J, Haering CH, Panne D. | 01/14/2017 |
| a novel role for Pds5 in Saccharomyces cerevisiae | Cohesin without cohesion: a novel role for Pds5 in Saccharomyces cerevisiae.
Tong K, Skibbens RV., Free PMC Article | 02/14/2015 |
| propose that Pds5 maintains cohesion, at least in part, by antagonizing the polySUMO-dependent degradation of cohesin | Pds5 prevents the PolySUMO-dependent separation of sister chromatids.
D'Ambrosio LM, Lavoie BD. | 09/13/2014 |
| Data indicate that cell cycle protein Pds5 promotes acetylation of cohesin subunit Smc3 by acetyltransferase Eco1 during S phase. | Pds5 promotes and protects cohesin acetylation.
Chan KL, Gligoris T, Upcher W, Kato Y, Shirahige K, Nasmyth K, Beckouët F., Free PMC Article | 11/16/2013 |
| Scc3 and Pds5 are cohesin maintenance factors required for cohesin ring stability or for maintaining its association with DNA. | Cohesin rings devoid of Scc3 and Pds5 maintain their stable association with the DNA.
Kulemzina I, Schumacher MR, Verma V, Reiter J, Metzler J, Failla AV, Lanz C, Sreedharan VT, Rätsch G, Ivanov D., Free PMC Article | 12/22/2012 |
| These data suggest that Pds5 modulates the Rec8 activity to facilitate chromosome morphological changes required for homologue synapsis, DSB repair, and meiotic chromosome segregation. | Pds5 is required for homologue pairing and inhibits synapsis of sister chromatids during yeast meiosis.
Jin H, Guacci V, Yu HG., Free PMC Article | 01/21/2010 |
| Pds5p and Top2p cooperate to promote proper chromosome segregation by a mechanism unrelated to either cohesion or catenation/decatenation | Topoisomerase II suppresses the temperature sensitivity of Saccharomyces cerevisiae pds5 mutants, but not the defect in sister chromatid cohesion.
Aguilar C, Davidson C, Dix M, Stead K, Zheng K, Hartman T, Guacci V. | 01/21/2010 |
| pds5-1 causes cell death in yeast Saccharomyces cerevisiae during early meiosis | Mutation of the cohesin related gene PDS5 causes cell death with predominant apoptotic features in Saccharomyces cerevisiae during early meiosis.
Ren Q, Yang H, Rosinski M, Conrad MN, Dresser ME, Guacci V, Zhang Z. | 01/21/2010 |