In eukaryotic cells secreted proteins are targeted first to the endoplasmic reticulum and then pass through the Golgi, before being released from secretory vesicles into the extracellular space. A much simpler route would be for ribosomes synthesising secretory proteins to be targeted to a translocon in the plasma membrane, with the protein being secreted directly as it is translated. List three potential advantages of the former, more circuitous, route for protein secretion over the simpler, more direct, alternative route suggested.
Proteins
We generally tend to think of proteins only from a dietary lens, as a component of what we eat. However, they are among the most important and abundant organic macromolecules in the human body, with diverse structures and functions. Every cell contains thousands and thousands of proteins, each with specific functions. Some help in the formation of cellular membrane or walls, some help the cell to move, others act as messages or signals and flow seamlessly from one cell to another, carrying information.
Protein Expression
The method by which living organisms synthesize proteins and further modify and regulate them is called protein expression. Protein expression plays a significant role in several types of research and is highly utilized in molecular biology, biochemistry, and protein research laboratories.
In eukaryotic cells secreted proteins are targeted first to the endoplasmic reticulum and then pass through the Golgi, before being released from secretory vesicles into the extracellular space. A much simpler route would be for ribosomes synthesising secretory proteins to be targeted to a translocon in the plasma membrane, with the protein being secreted directly as it is translated.
List three potential advantages of the former, more circuitous, route for protein secretion over the simpler, more direct, alternative route suggested.
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