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Originally published as MBC in Press, 10.1091/mbc.E06-10-0963 on February 21, 2007

Vol. 18, Issue 5, 1645-1656, May 2007

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Chromosome Malorientations after Meiosis II Arrest Cause NondisjunctionFormula

Marie A. Janicke*, Loren Lasko*, Rudolf Oldenbourg{dagger}, and James R. LaFountain, Jr*

*Department of Biological Sciences, State University of New York at Buffalo, Amherst, NY 14260; and {dagger}Marine Biological Laboratory, Woods Hole, MA 02543

Submitted October 27, 2006; Revised January 16, 2007; Accepted February 9, 2007
Monitoring Editor: Kerry Bloom

This study investigated the basis of meiosis II nondisjunction. Cold arrest induced a fraction of meiosis II crane fly spermatocytes to form (n + 1) and (n – 1) daughters during recovery. Live-cell liquid crystal polarized light microscope imaging showed nondisjunction was caused by chromosome malorientation. Whereas amphitely (sister kinetochore fibers to opposite poles) is normal, cold recovery induced anaphase syntely (sister fibers to the same pole) and merotely (fibers to both poles from 1 kinetochore). Maloriented chromosomes had stable metaphase positions near the equator or between the equator and a pole. Syntelics were at the spindle periphery at metaphase; their sisters disconnected at anaphase and moved all the way to a centrosome, as their strongly birefringent kinetochore fibers shortened. The kinetochore fibers of merotelics shortened little if any during anaphase, making anaphase lag common. If one fiber of a merotelic was more birefringent than the other, the less birefringent fiber lengthened with anaphase spindle elongation, often permitting inclusion of merotelics in a daughter nucleus. Meroamphitely (near amphitely but with some merotely) caused sisters to move in opposite directions. In contrast, syntely and merosyntely (near syntely but with some merotely) resulted in nondisjunction. Anaphase malorientations were more frequent after longer arrests, with particularly long arrests required to induce syntely and merosyntely.

This was published online ahead of print in MBC in Press (http://www.molbiolcell.org/cgi/doi/10.1091/mbc.E06-10-0963) on February 21, 2007.

Formula The online version of this article contains supplemental material at MBC Online (http://www.molbiolcell.org).

Address correspondence to: Marie A. Janicke (mjanicke{at}buffalo.edu)

Abbreviations used: LC-PolScope, liquid crystal polarized light microscope.






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