Autor: |
Gomes De Mesquita, Daniel S., Shaw, Janet, Grimbergen, Jos A., Buys, Marlies A., Dewi, Lusiawati, Woldringh, Conrad L. |
Zdroj: |
Yeast; September 1997, Vol. 13 Issue: 11 p999-1008, 10p |
Abstrakt: |
The conditional vacuolar segregation mutant vac2‐1[Shaw and Wickner (1991) EMBO J. 10,1741–1748] shifted to non‐permissive temperature (37°C), forms large‐budded cells without a vacuole in the bud, and daughter cells without an apparent vacuole. Some cells still contain normal segregation structures. Structural and biochemical quantification of the segregation defect showed that (i) about 10% of the full‐grown buds did not contain a vacuole, (ii) about 15% of the small cells washed out of a population growing in an elutriation chamber at 37°C, did not contain a visible vacuole, and (iii) 15% of the cells per generation lost carboxypeptidase Y activity after proteinase A depletion. Thus, 10–15% of the daughter cells did not inherit vacuolar structures or vacuolar proteolytic activity from the mother cell. To investigate the fate of vacuole‐less daughters, these cells were isolated by optical trapping. The isolated cells formed colonies on agar plates that consisted of cells with normal vacuoles, both at 23 and 37°C. Thus, the vacuole‐less cells that failed to inherit proteolytic activities from the mother cell apparently give rise to progeny containing structurally normal vacuoles. Time‐lapse experiments showed that vacuole‐less daughter cells formed vacuolar vesicles that fused into a new vacuole within 30 min. Although new buds only emerged after a vacuole had formed in the mother cell, the temporary lack of a vacuole had little effect on growth rate. The results suggest that an alternative pathway for vacuole formation exists, and that yeast cells may require a vacuole of some minimal size to initiate a new round of budding. © 1997 by John Wiley & Sons, Ltd. |
Databáze: |
Supplemental Index |
Externí odkaz: |
|