Sequence A: TCT/ TCC/ CTC/ CTA/ AAC/ GTT/ CAA/ CCG/ GTT/ CTT/ AAT/ CCG/ CCG/ CCA/ GGG/ CCC/ CGC/ CCC/ TCA/ GAA/ GTT/ GGT AGA Sequence B: TCA/ GAC/ GTT/ TTT/ GCC/ CCG/ TAA/ CAA/ CTT/ GTT/ ACA/ ACA/ TGG/ TCA/ TAA/ ACG/ TCA/ GAG/ ATG/ GTC/ AAT/ CTC/ TTA/ ATG/ ACT Sequence C: TAT/ ATA/ CAT/ GTA/ AAC/ ACA/ TAC / TCA/ GTG/ GAC/ CAA/ CTC/ AAC/ ATA/ AAC/ CAA/ ACA/ CCG/ CTC/GCG/ CCG/ AAA/ AAG/ ATA/ TGG STEP 1: Transcribe each of the 3 DNA sections into nRNA. Write out the complementary CODONS directly below the DNA strands. STEP 2: Clearly identify the three fragments as the FIRST, SECOND and THIRD fragments by clearly labeling any obvious PROMOTERS, START and STOP codons. STEP 3: Number the the START codon #1 and number the codons in the correct order until the STOP codon is reached. STEP 4: Codons 14- 64 (including 14 & 64) represent an intron. Draw a single red line through these codons to indicate that they will NOT be translated. STEP 4: In the space provided, write out the remaining codons of the mRNA in the correct order, place a line to separate each codon as was done for the DNA. This is your final mRNA, therefore be sure to include the post-transcriptional modifications (CAP and TAIL) as appropriate.
Sequence A: TCT/ TCC/ CTC/ CTA/ AAC/ GTT/ CAA/ CCG/ GTT/ CTT/ AAT/ CCG/ CCG/ CCA/ GGG/ CCC/ CGC/ CCC/ TCA/ GAA/ GTT/ GGT AGA Sequence B: TCA/ GAC/ GTT/ TTT/ GCC/ CCG/ TAA/ CAA/ CTT/ GTT/ ACA/ ACA/ TGG/ TCA/ TAA/ ACG/ TCA/ GAG/ ATG/ GTC/ AAT/ CTC/ TTA/ ATG/ ACT Sequence C: TAT/ ATA/ CAT/ GTA/ AAC/ ACA/ TAC / TCA/ GTG/ GAC/ CAA/ CTC/ AAC/ ATA/ AAC/ CAA/ ACA/ CCG/ CTC/GCG/ CCG/ AAA/ AAG/ ATA/ TGG STEP 1: Transcribe each of the 3 DNA sections into nRNA. Write out the complementary CODONS directly below the DNA strands. STEP 2: Clearly identify the three fragments as the FIRST, SECOND and THIRD fragments by clearly labeling any obvious PROMOTERS, START and STOP codons. STEP 3: Number the the START codon #1 and number the codons in the correct order until the STOP codon is reached. STEP 4: Codons 14- 64 (including 14 & 64) represent an intron. Draw a single red line through these codons to indicate that they will NOT be translated. STEP 4: In the space provided, write out the remaining codons of the mRNA in the correct order, place a line to separate each codon as was done for the DNA. This is your final mRNA, therefore be sure to include the post-transcriptional modifications (CAP and TAIL) as appropriate.
Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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Question
Sequence A:
TCT/ TCC/ CTC/ CTA/ AAC/ GTT/ CAA/ CCG/ GTT/ CTT/ AAT/ CCG/ CCG/ CCA/ GGG/ CCC/ CGC/ CCC/ TCA/ GAA/ GTT/ GGT AGA
Sequence B:
TCA/ GAC/ GTT/ TTT/ GCC/ CCG/ TAA/ CAA/ CTT/ GTT/ ACA/ ACA/ TGG/ TCA/ TAA/ ACG/ TCA/ GAG/ ATG/ GTC/ AAT/ CTC/ TTA/ ATG/ ACT
Sequence C:
TAT/ ATA/ CAT/ GTA/ AAC/ ACA/ TAC / TCA/ GTG/ GAC/ CAA/ CTC/ AAC/ ATA/ AAC/ CAA/ ACA/ CCG/ CTC/GCG/ CCG/ AAA/ AAG/ ATA/ TGG
STEP 1: Transcribe each of the 3 DNA sections into nRNA. Write out the complementary CODONS directly below the DNA strands.
STEP 2: Clearly identify the three fragments as the FIRST, SECOND and THIRD fragments by clearly labeling any obvious PROMOTERS, START and STOP codons.
STEP 3: Number the the START codon #1 and number the codons in the correct order until the STOP codon is reached.
STEP 4: Codons 14- 64 (including 14 & 64) represent an intron. Draw a single red line through these codons to indicate that they will NOT be translated.
STEP 4: In the space provided, write out the remaining codons of the mRNA in the correct order, place a line to separate each codon as was done for the DNA. This is your final mRNA, therefore be sure to include the post-transcriptional modifications (CAP and TAIL) as appropriate.
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