Elastic tethers remain functional during anaphase arrest in partially-lysed crane-fly spermatocytes: a possible approach for studying mitotic tethers

Aidil, Aisha; Malick, Samir A.; Forer, Arthur

doi:10.1101/2024.05.18.594823

2024

DOI: 10.1101/2024.05.18.594823

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Elastic tethers remain functional during anaphase arrest in partially-lysed crane-fly spermatocytes: a possible approach for studying mitotic tethers

Aisha Aidil,

Samir A. Malick,

Arthur Forer

Abstract: Mitotic tethers connect partner telomeres of all segregating anaphase chromosomes in all animal cells that have been tested, as detected by laser-cutting chromosome arms during anaphase and seeing that the arm fragments move rapidly across the equator to their partner chromosome moving to the opposite pole, telomere moving towards telomere. Tethers exert anti-poleward forces on the poleward separating telomeres, but tether elasticity (that produces the backwards forces) diminishes during anaphase: as determine… Show more

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2024

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Elastic mitotic tethers remain functional after microtubules are inhibited

Adil,

Janan,

Forer

2024

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During normal anaphase in animal cells, elastic tethers connect partner telomeres of segregating chromosomes and exert backward (anti-poleward) forces on those chromosomes. The experiments reported herein test whether microtubules need to be present in order for tethers to produce backwards forces. We disassembled spindle microtubules by treating anaphase crane-fly primary spermatocytes separately with nocodazole, colcemid, or podophyllotoxin. The drug treatments caused anaphase chromosomes to stop moving poleward; almost immediately thereafter they moved backward. The characteristics of the backward movements of the half-bivalents match those of the backwards movements of arm fragments formed by cutting chromosome arms during anaphase, for example the occurrence and lengths of backward movements were a function of tether length. The only difference from movement of arm fragments is that the chromosomes in the treated cells moved backwards slower than arm fragments did. Immunofluorescence of spindle tubulin after the drug treatments indicated that acetylated kinetochore microtubules were not depolymerized by the drugs, though the non-kinetochore spindle microtubules were depolymerized. Our data indicate that tethers move anaphase chromosomes backwards in the absence of functioning spindle microtubules. We suggest that the backward movements that take place when poleward forces are absent are due to tethers, and that the backward movements are slowed by the presence of acetylated kinetochore microtubules.

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Elastic mitotic tethers remain functional after microtubules are inhibited

Adil,

Janan,

Forer

2024

Preprint

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Elastic tethers remain functional during anaphase arrest in partially-lysed crane-fly spermatocytes: a possible approach for studying mitotic tethers

Cited by 1 publication

References 46 publications

Elastic mitotic tethers remain functional after microtubules are inhibited

Elastic mitotic tethers remain functional after microtubules are inhibited

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