Place these steps of translation in the correct order. 1. The ribosome attaches to the 5’...

1) When a ribosome encounters a stop codon, what happens to terminate transcription? a)tRNAs that do...

1) When a ribosome encounters a stop codon, what happens to terminate transcription? a)tRNAs that do not have an amino acid enter the A site to release the polypeptide b)the small ribosomal subunit immediately dissociates from the large subunit of the ribosome to terminate translation c)special proteins recognize the stop codon and release the polypeptide from the ribosome d)the ribosome scans for a polyadenylation site and adds a stop tRNA to the peptide e) the 5’ methyl-guanine cap loops to...

4-3.  To demonstrate an understanding of translation elongation, we’ll start somewhere in the middle of translation of...

4-3.  To demonstrate an understanding of translation elongation, we’ll start somewhere in the middle of translation of a polypeptide.  At this moment, the entire ribosome (the small and large subunits) is bound to the mRNA, and there is a tRNA bound at the P-site.  Attached to the 3’-end of this tRNA is the start of the polypeptide- Amino-Met-Leu-Ser-Ala-Phe-tRNA At this starting point, there is no other tRNA bound to the ribosome, and the next codon is 5’-UGG-3’ When the next tRNA binds to...

A codon is a series of three bases in mRNA which is equivalent to the 3...

A codon is a series of three bases in mRNA which is equivalent to the 3 bases in DNA; this triplet code corresponds to one amino acid. Once the mRNA is attached to a ribosome, it can assemble the protein by translating from the “language” of nucleic acids to the “language” of amino acids. What is the processed called? In order to synthesize a protein molecule, amino acids need to be aligned in the proper sequence along the RNA sequence....

Introns are known to contain stop codons (UAA, UGA, or UAG), yet these codons do not...

Introns are known to contain stop codons (UAA, UGA, or UAG), yet these codons do not interrupt the coding of a particular protein. Why? a. More than one stop codon is needed to stop transcription. b. Exons are spliced out of mRNA before translation. c. These triplets do not cause termination in gene expression. d. Stop codons are only required for termination of mRNA synthesis. e. Introns are removed from mRNA before translation A(n) _____ is located upstream of a...

Protein synthesis requires energy in the form of ATP and GTP. Two high-energy phosphate bonds (from...

Protein synthesis requires energy in the form of ATP and GTP. Two high-energy phosphate bonds (from ATP) fuel the formation of one aminoacyl tRNA. Formation of the initiation complex requires energy from one GTP. Delivery of each new tRNA to the Asite requires one GTP. Termination requires the hydrolysis of one GTP.   Based on this information, the table of codons, and your understanding of the processes of Activation, Initiation, Elongation, and Termination, answer the following questions. How many high energy...

5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA...

5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA template strand Use the information above to answer the following questions. Write the sequences of the two double-stranded daughter DNAs which will be replicated from the sequence above. Indicate which sequences are directly from the parent. Show accurate direction of each sequence. 0.5 points Write the sequence of the mRNA strand that will be transcribed from the above DNA sequence. Show accurate direction of...

5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA...

5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA template strand Use the information above to answer the following questions. Write the sequences of the two double-stranded daughter DNAs which will be replicated from the sequence above. Indicate which sequences are directly from the parent. Show accurate direction of each sequence. 0.5 points Write the sequence of the mRNA strand that will be transcribed from the above DNA sequence. Show accurate direction of...

5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA...

5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA template strand Use the information above to answer the following questions. Write the sequences of the two double-stranded daughter DNAs which will be replicated from the sequence above. Indicate which sequences are directly from the parent. Show accurate direction of each sequence. 0.5 points Write the sequence of the mRNA strand that will be transcribed from the above DNA sequence. Show accurate direction of...

Use the information above to answer the following questions. 5’…TAC ACC GAT GGA TAA GTC…3’ DNA...

Use the information above to answer the following questions. 5’…TAC ACC GAT GGA TAA GTC…3’ DNA Coding strand 3’…ATG TGG CTA CCT ATT CAG…5’ DNA template strand ONLY answer E and F please!! The rest is for reference!! A. Write the sequences of the two double-stranded daughter DNAs which will be replicated from the sequence above. Indicate which sequences are directly from the parent. Show accurate direction of each sequence. 0.5 points B. Write the sequence of the mRNA strand...

12. If the DNA repair mechanisms fail to correct a defect in nucleotide sequencing, a permanent...

12. If the DNA repair mechanisms fail to correct a defect in nucleotide sequencing, a permanent change known as a __________________ may result. 13. As the enzyme helicase opens and “unzips” the two strands of DNA by breaking the hydrogen bonds, a Y-shaped ________________________ forms. a. Lagging strand b. Leading strand c. Okazaki fragment d. Replication fork 14. One large difference between transcription and translation between prokaryotes and eukaryotes is that, in prokaryotes: a. Translation occurs simultaneously with transcription b....