2000
DOI: 10.1083/jcb.149.4.863
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Microtubule Interactions with the Cell Cortex Causing Nuclear Movements in Saccharomyces cerevisiae

Abstract: During mitosis in budding yeast the nucleus first moves to the mother-bud neck and then into the neck. Both movements depend on interactions of cytoplasmic microtubules with the cortex. We investigated the mechanism of these movements in living cells using video analysis of GFP-labeled microtubules in wild-type cells and in EB1 and Arp1 mutants, which are defective in the first and second steps, respectively. We found that nuclear movement to the neck is largely mediated by the capture of microtubule ends at o… Show more

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Cited by 314 publications
(365 citation statements)
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“…To examine the effects of these mutations on microtubule stability in more detail, we analyzed microtubule dynamics in both wild-type and tub2-C354 mutant cells using a GFP-Tub1p fusion protein. The wild-type values we obtained for the microtubule dynamic parameters of growth rate, shrinkage rate, catastrophe frequency, and rescue frequency in wild-type cells were in agreement with those reported by others (Carminati and Stearns, 1997;Shaw et al, 1997b;Tirnauer et al, 1999;Adames and Cooper, 2000;Vogel et al, 2001;Kosco et al, 2001). However, all aspects of microtubule dynamics were drastically reduced in both tub2-C354 mutants.…”
Section: Dynamics Of Wild-type and Tub2p-c354 Microtubules In Vivo Ansupporting
confidence: 80%
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“…To examine the effects of these mutations on microtubule stability in more detail, we analyzed microtubule dynamics in both wild-type and tub2-C354 mutant cells using a GFP-Tub1p fusion protein. The wild-type values we obtained for the microtubule dynamic parameters of growth rate, shrinkage rate, catastrophe frequency, and rescue frequency in wild-type cells were in agreement with those reported by others (Carminati and Stearns, 1997;Shaw et al, 1997b;Tirnauer et al, 1999;Adames and Cooper, 2000;Vogel et al, 2001;Kosco et al, 2001). However, all aspects of microtubule dynamics were drastically reduced in both tub2-C354 mutants.…”
Section: Dynamics Of Wild-type and Tub2p-c354 Microtubules In Vivo Ansupporting
confidence: 80%
“…These results indicate that microtubule dynamics can be altered to produce either net disassembly (small-budded) or net assembly (late-anaphase) of cytoplasmic microtubules. The decrease in length of the single microtubule in small-budded cells indicates that microtubule depolymerization is responsible for nuclear migration to the bud neck (Adames and Cooper, 2000;Beach et al, 2000).…”
Section: Changes In Microtubule Dynamics During the Cell Cyclementioning
confidence: 99%
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“…Microtubule lengths were measured in triplicate, and the average value for each time point were used for calculations. Elongation were defined as three consecutive points on a regression line in which the increased change in length of a microtubule (⌬length increase ) was Ն0.3 m. Shrinkage was defined as three consecutive points on a regression line in which the decreased change in length of a microtubule (⌬length decrease ) was Ն0.3 m. Microtubule pausing was defined as a change in length spanning three points on a regression line that was Յ0.3 m. Microtubule catastrophes were defined as shrinkage after growth or pause, whereas microtubule rescues were defined as transitions to growth after a shrinkage or pause (Adames and Cooper, 2000). The frequencies of catastrophe and rescue were calculated as described previously (Kosco et al, 2001).…”
Section: Calculation Of Microtubule Dynamicsmentioning
confidence: 99%
“…To test these possibili- ties, we investigated the impact of Kar9 on the dynamics of astral microtubules in the bud in TUB4, tub4-⌬dsyl, kar9⌬, and tub4-⌬dsyl kar9⌬ cells expressing GFP-Tub1. The rate of elongation and shrinkage ( m/min), frequencies (event/s) of catastrophe and rescue, and the duration of elongation, shrinkage and pauses (minutes) were calculated for astral microtubule targeted to the bud as described previously (Adames and Cooper, 2000;Kosco et al, 2001; for experimental details, see Materials and Methods). The analysis was restricted to small-budded cells.…”
Section: Kar9 Suppresses Microtubule Dynamics In Tub4-⌬dsyl Cellsmentioning
confidence: 99%