QUESTION 34 Dynosaur inhibits the attachment of the microtubule motor protein dynein to microtubules. What will happen to the mitotic spindle positioning and chromosome segregation if Dynosaur is added at the start of prophase and present through the end of cytokinesis? O Mitotic spindle positioning and chromosome segregation will proceed normally. O The mitotic spindle would no longer be anchored to the plasma membrane and chromosomes might not be equally distributed between the daughter cells following anaphase. The centrosomes will be pulled more strongly towards the plasma membrane and chromosome segregation would be unaffected. O The mitotic spindle would disintegrate, and chromosomes will become randomly positioned all throughout the dividing cell.

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QUESTION 34 Dynosaur inhibits the attachment of the microtubule motor protein dynein to microtubules. What will happen to the mitotic spindle positioning and chromosome segregation if Dynosaur is added at the start of prophase and present through the end of cytokinesis? Mitotic spindle positioning and chromosome segregation will proceed normally. The mitotic spindle would no longer be anchored to the plasma membrane and chromosomes might not be equally distributed between the daughter cells following anaphase. The centrosomes will be pulled more strongly towards the plasma membrane and chromosome segregation would be unaffected. The mitotic spindle would disintegrate, and chromosomes will become randomly positioned all throughout the dividing cell.