Dosage suppressors of mob2Δ SSD1-v lethality suppress the cell lysis but not the cell separation defect of ramΔ SSD1-v cells. (A) mob2Δ SSD1-v cells (FLY858) containing pRS316-MOB2 were transformed with empty vector (pRS425) or with high-copy plasmids containing MOB2 (pMOB2), CBP3 (pCBP3), CCW12 (pCCW12), SIM1 (pSIM1), SRL1 (pSRL1), or ZRG8 (pZRG8). All of the high-copy plasmids contained LEU2 and thus were selectable on leucine deficient (Leu−) medium. The cells were serially diluted (10-fold) and spotted onto Leu− and 5-FOA plates. 5-FOA selects for cells that do not contain pRS316-MOB2. Note that CBP3 is a weak suppressor and that none of the high-copy suppressors rescue the lethality of mob2Δ as well as that of MOB2. (B) DIC images of the suppressed mob2Δ SSD1-v cells. High-copy CBP3, CCW12, SIM1, SRL1, and ZRG8 plasmids suppress the cell lysis defects but not the cell separation defects of mob2Δ SSD1-v cells (FLY858). mob2Δ SSD1-v cells containing pMOB2 are indistinguishable from wild-type cells. (C) High-copy CCW12, SIM1, SRL1, and ZRG8 plasmids suppress the lethality of cbk1Δ SSD1-v (FLY1662), hym1Δ SSD1-v (FLY1687), and sog2Δ SSD1v (FLY1692) cells. The rescued cells display cell separation defects that are identical in phenotype to mob2Δ ssd1-d and cbk1Δ ssd1-d cells (FLY168 and FLY757), which were previously described in Weiss et al. (2002). cbk1Δ SSD1-v, hym1Δ SSD1-v, and sog2Δ SSD1-v cells containing cognate CBK1, HYM1, and SOG2 plasmids are indistinguishable from wild-type cells (data not shown). All high-copy suppressor plasmids are derived from a YEp13-based genomic library (DeMarini et al. 1997).