The MRNA for a mammalian peptide that enhances electrolyte transfer to reduce paralysis was spliced then reversed transcribed and the CDNA ligated into a phage and transfected into host bacteria cells. The host then transcribed and translated this. The protein product however was non-functional. What is the most probable reason for this result? A. Absence of post-transcriptional modification in bacterial cells B. Differences in the post-translational mechanisms in eukaryotes and prokaryotes. C. Differences in the translational mechanisms involved in prokaryotes, e.g. 70 S ribosome vs 80S ribosome. D. The MRNA did not contain a promoter region to allow peptide translation. E. Insertion of portions of the phage DNA which added sequences for amino acids changing the function of the protein product.

Biochemistry
9th Edition
ISBN:9781319114671
Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.
Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.
Chapter1: Biochemistry: An Evolving Science
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The MRNA for a mammalian peptide that enhances electrolyte transfer to
reduce paralysis was spliced then reversed transcribed and the CDNA
ligated into a phage and transfected into host bacteria cells. The host
then transcribed and translated this. The protein product however was
non-functional. What is the most probable reason for this result?
A. Absence of post-transcriptional modification in bacterial cells
B. Differences in the post-translational mechanisms in eukaryotes and
prokaryotes.
C. Differences in the translational mechanisms involved in prokaryotes, e.g. 70 S
ribosome vs 80S ribosome.
D. The mRNA did not contain a promoter region to allow peptide translation.
E. Insertion of portions of the phage DNA which added sequences for amino
acids changing the function of the protein product.
Transcribed Image Text:The MRNA for a mammalian peptide that enhances electrolyte transfer to reduce paralysis was spliced then reversed transcribed and the CDNA ligated into a phage and transfected into host bacteria cells. The host then transcribed and translated this. The protein product however was non-functional. What is the most probable reason for this result? A. Absence of post-transcriptional modification in bacterial cells B. Differences in the post-translational mechanisms in eukaryotes and prokaryotes. C. Differences in the translational mechanisms involved in prokaryotes, e.g. 70 S ribosome vs 80S ribosome. D. The mRNA did not contain a promoter region to allow peptide translation. E. Insertion of portions of the phage DNA which added sequences for amino acids changing the function of the protein product.
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