Astral Microtubule Dynamics in Yeast: A Microtubule-based Searching Mechanism for Spindle Orientation and Nuclear Migration into the Bud

doi:10.1083/jcb.139.4.985

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© The Rockefeller University Press, 0021-9525/1997//985 $5.00
The Journal of Cell Biology, Volume 139, Number 4, , 1997 985-994

Article

Astral Microtubule Dynamics in Yeast: A Microtubule-based Searching Mechanism for Spindle Orientation and Nuclear Migration into the Bud

Sidney L. Shaw, Elaine Yeh, Paul Maddox, E.D. Salmon, and Kerry Bloom

Department of Biology, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599-3280

Localization of dynein–green fluorescent protein (GFP)to cytoplasmic microtubules allowed us to obtain one of thefirst views of the dynamic properties of astral microtubulesin live budding yeast. Several novel aspects of microtubulefunction were revealed by time-lapse, three-dimensional fluorescencemicroscopy. Astral microtubules, about four to six in numberfor each pole, exhibited asynchronous dynamic instability throughout the cell cycle, growing at ${cong}$ 0.3–1.5 µm/min toward the cell surface then switching to shortening at similarvelocities back to the spindle pole body (SPB). During interphase,a conical array of microtubules trailed the SPB as the nucleustraversed the cytoplasm. Microtubule disassembly by nocodozoleinhibited these movements, indicating that the nucleus waspushed around the interior of the cell via dynamic astral microtubules.These forays were evident in unbudded G1 cells, as well asin late telophase cells after spindle disassembly. Nuclear movementand orientation to the bud neck in S/G2 or G2/M was dependenton dynamic astral microtubules growing into the bud. The SPBand nucleus were then pulled toward the bud neck, and furthermicrotubule growth from that SPB was mainly oriented towardthe bud. After SPB separation and central spindle formation,a temporal delay in the acquisition of cytoplasmic dynein atone of the spindle poles was evident. Stable microtubule interactionswith the cell cortex were rarely observed during anaphase, and did not appear to contribute significantly to spindle alignment or elongation into the bud. Alterations of microtubuledynamics, as observed in cells overexpressing dynein-GFP, resultedin eventual spindle misalignment. These studies provide thefirst mechanistic basis for understanding how spindle orientationand nuclear positioning are established and are indicative ofa microtubule-based searching mechanism that requires dynamic microtubules for nuclear migration into the bud.

Abbreviations used in this paper: DIC, differential interference contrast; GFP, green fluorescent protein; GST, glutathione-S-transferase; SPB, spindle pole body.

Address all correspondence to K. Bloom, Department of Biology,University of North Carolina at Chapel Hill, Chapel Hill, NC27599-3280. Tel.: (919) 962-1182. Fax: (919) 962-1625. E-mail:ksb.fordham{at}mhs.unc.edu

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