Cytoplasmic determinants and asymmetric cell division
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❇️ It binds cytoplasmic myosin heavy chain, providing a direct link to the actin cytoskeleton … the samephenotype, but in bazookamutants epithelial cells lose their polarity and determinants in neuroblasts … in the absence of any one protein, the other two relocalize into the cytoplasm.
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Here is your answer:-
❇️ It binds cytoplasmic myosin heavy chain, providing a direct link to the actin cytoskeleton … the samephenotype, but in bazookamutants epithelial cells lose their polarity and determinants in neuroblasts … in the absence of any one protein, the other two relocalize into the cytoplasm.
Hope... It... Helps... You...❤️❤️
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A simple model of asymmetric cell division postulates that it is a three-step process in which the maxr proteins set up a polarity axis in interphase. In mitosis, this axis is used both for spindle orientation and for the asymmetric localization of cell fate determinants. In telophase, the tight coordination of these two processes ensures that those determinants are inherited by only one of the two daughter cells
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