30. Inhibition of microtubule formation with the inhibitor colchicine would most likely have the following effect on cor
Posted: Thu Jun 09, 2022 2:13 pm
30. Inhibition of microtubule formation with the inhibitor
colchicine would most likely have the following effect on cortical
rotation in Xenopus: a) Cortical rotation would be inhibited, and
would lead to a ventralized embryo b) Cortical rotation would be
inhibited, and would lead to a twinned axis c) Cortical rotation
would be inhibited, and would lead to a dorsalized embryo d)
Cortical rotation depends on microfilaments, not microtubules, and
thus colchicine would have no effect
colchicine would most likely have the following effect on cortical
rotation in Xenopus: a) Cortical rotation would be inhibited, and
would lead to a ventralized embryo b) Cortical rotation would be
inhibited, and would lead to a twinned axis c) Cortical rotation
would be inhibited, and would lead to a dorsalized embryo d)
Cortical rotation depends on microfilaments, not microtubules, and
thus colchicine would have no effect