2. A gene regulatory protein, A, contains a typical nuclear localization signal

Question

2. A gene regulatory protein, A, contains a typical nuclear localization signal but surprisingly is usually found in the cytosol. However, you observe that: 1. When the cell is exposed to hormones, protein A moves from the cytosol into the nucleus, where it turns on genes involved in cell division. 2. When you purify protein A from cells that have not been treated with hormones, you find that protein B is always complexed with it. To determine the function of protein B, you engineer cells lacking the gene for protein B. You compare normal and defective cells by using differential centrifugation to separate the nuclear fraction from the cytoplasmic fraction, and then separate the proteins in these fractions by gel electrophoresis. You identify the presence of protein A and protein B by looking for their characteristic bands on the gel. The gel you run is shown in the Figure On the basis of these results: what is the function of protein H in relation to protein A (2)? Explain your Conclusion and propose a Mechanism for how protein B works (3)and what effect the hormone might have either or both protein A and B(1).

Explanation / Answer

Protein B binds to Protein A and sequesters it in cytoplasm. The hormone, either directly or most likely indirectly dissociated B from A, but does not degrade B. Upon disociation, the nuclear localization of A is achieveed. Hence, B must be masking a conformational change or the Nuclear Localizzation sequence in A, which, upon dissociation, is exposed.

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