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Questions and Answers
Serine 9 (Ser9) phosphorylation is usually necessary for beta GSK-3 to function fully.
Serine 9 (Ser9) phosphorylation is usually necessary for beta GSK-3 to function fully.
False
The most often occurring and significant regulating mechanism is Tyrosine 9 (Tyr9) phosphorylation.
The most often occurring and significant regulating mechanism is Tyrosine 9 (Tyr9) phosphorylation.
False
Serine 9 (Ser9) phosphorylation reduces beta GSK-3 activity.
Serine 9 (Ser9) phosphorylation reduces beta GSK-3 activity.
True
Tyrosine 216 (Tyr216) phosphorylation reduces beta GSK-3 activity.
Tyrosine 216 (Tyr216) phosphorylation reduces beta GSK-3 activity.
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Tyrosine 216 (Tyr216) phosphorylation is necessary for beta GSK-3 to function fully.
Tyrosine 216 (Tyr216) phosphorylation is necessary for beta GSK-3 to function fully.
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Serine 9 phosphorylation is crucial for the full functioning of beta GSK-3.
Serine 9 phosphorylation is crucial for the full functioning of beta GSK-3.
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Tyrosine 216 phosphorylation enhances the activity of beta GSK-3.
Tyrosine 216 phosphorylation enhances the activity of beta GSK-3.
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The regulation of GSK is important for Proliferation processes.
The regulation of GSK is important for Proliferation processes.
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GSK is essential for controlling only a limited number of signaling pathways.
GSK is essential for controlling only a limited number of signaling pathways.
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Beta GSK has not been the primary focus of GSK-3 related research.
Beta GSK has not been the primary focus of GSK-3 related research.
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