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A.
To predict: The membrane orientation of a protein that is made with an uncleaved, internal signal sequence but does not contain a stop-transfer sequence.
Concept introduction:
Transmembrane proteins are those proteins that remain embedded in the ER membrane and are not released to the ER lumen. The N-terminal signal sequence starts the transfer process, and it is stopped by a hydrophobic amino acid sequence called the stop-transfer sequence. The translocation channel will release the growing polypeptide chain sideways to bilayer and N-terminal is cleaved off. A α-helical membrane-spanning section is formed that anchors the proteins to the membrane.
B.
To predict: The membrane orientation of a protein that is synthesized with an N-terminal cleaved signal sequence followed by a stop-transfer sequence, followed by a start-transfer sequence.
Concept introduction:
Transmembrane proteins are those proteins that remain embedded in the ER membrane and are not released to the ER lumen. The N-terminal signal sequence starts the transfer process, and it is stopped by a hydrophobic amino acid sequence called the stop-transfer sequence. The translocation channel will release the growing polypeptide chain sideways to bilayer and N-terminal is cleaved off. A α-helical membrane-spanning section is formed that anchors the proteins to the membrane.
C.
To examine: What arrangement of signal sequences would enable the insertion of a multi-pass protein with an odd number of transmembrane segments.
Concept introduction:
Transmembrane proteins are those proteins that remain embedded in the ER membrane and are not released to the ER lumen. The N-terminal signal sequence starts the transfer process, and it is stopped by a hydrophobic amino acid sequence called the stop-transfer sequence. The translocation channel will release the growing polypeptide chain sideways to bilayer and N-terminal is cleaved off. A α-helical membrane-spanning section is formed that anchors the proteins to the membrane.
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Chapter 15 Solutions
ESSENTIAL CELL BIOLOGY (LL)-TEXT
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- Identify the tissue. parenchyma collenchyma sclerenchyma ○ xylem O phloem O none of thesearrow_forwardPlease answer q3arrow_forwardRespond to the following in a minimum of 175 words: How might CRISPR-Cas 9 be used in research or, eventually, therapeutically in patients? What are some potential ethical issues associated with using this technology? Do the advantages of using this technology outweigh the disadvantages (or vice versa)? Explain your position.arrow_forward
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