In the replication fork, label the leading and lagging strands and the 5' and 3' ends of the DNA and RNA molecules. The 5 and 3' labels are used multiple times.
In the replication fork, label the leading and lagging strands and the...
5a. For the replication fork shown below: - label the leading and lagging strands; - draw arrows to indicate which direction DNA synthesis is proceeding in for each of these strands; - label their 5' and 3' ends. Replication fork movement →→→ 5'-ATCTGGCAGTACGTACTGGATC CGUCAUGC GTCGAATCTGAC-3' CAGCTTAGACTG-5' ATCTGGCTATTCGT 3'-TAGACCGATAAGCATGACCTAG b. Okazaki fragments are generated during (leading / lagging) strand synthesis (circle the correct answer). c. Some U's are included in one of the strands in the figure. Why are there U's...
In the following diagram, label the following: leading and lagging strand, Okazaki fragment, DNA polymerase, DNA ligase, helicase, RNA primase, singlestrand binding proteins, RNA primer, replication fork, topoisomerase and the 5' and 3' ends of strands.
Draw a diagram showing a portion of a chromosome undergoing replication. Label the leading and lagging strands, and replication fork. What are the roles of DNA polymerase and RNA polymerase? How does this process represent semi-conservative replication?
What figure correctly depicts the direction of replication of the leading and lagging strands at replication fork? (All lines with arrows show the newly synthesized DNA and indicate the direction of polymerization. The 5' and 3 designations are indicated on the template DNA.) A) A B) B C) C D) D E) E
1) Draw a diagram of a bacterial replication fork showing the leading and lagging strand of new DNA and the enzymes responsible for the processes involved. Indicate the 3' and 5' end of each nucleic acid strand. 2) The ends of a linear chromosome cannot be replicated by the normal DNA replication enzymes. Why? How does the eukaryotic cell solve this problem?
QUESTION 3 Replication Now DNA Origin of replication DOC Replication fork B CON RO Unreplicated DNA Prokaryotic DNA The above diagram shows DNA replication in bacterial cells. An antibody specific only to DNA polymerase I was added to DNA undergoing replication in bacterial cells. Which of the following statements are CORRECT? a. There would be a higher concentration of antibodies on the leading strands of replication foris A and B and a lower concentration of antibodies on the lagging strands...
The image shows a replication fork, template DNA strands, and new DNA strands. Label the image by moving the terms to the apropriate targets. Not all terms will be used.
The diagram below shows a replication bubble with synthesis of the leading and lagging strands on both sides of the bubble. The parental DNA is shown in dark blue,the newly synthesized DNA is light blue, and the RNA primers associated with each strand are red. The origin of replication is indicated by the black dots on theparental strands.Rank the primers in the order they were produced. If two primers were produced at the same time, overlap them
The lagging strand in DNA replication?: (A) is synthesized after the leading strand. (B) causes the formation of Okazaki fragments in the leading strand. (C) is a consequence of replicating both strands of template DNA at a single replication fork. (D) requires its own replisome.
Draw a figure of one double stranded DNA molecule that has initiated replication and produced two okazaki fragment in each lagging strand. The figure must include both template strands, all newly synthesized DNA molecules on both leading and lagging strands, all RNA primers, direction of chain growth for each fragment/strand indicated with arrowheads, direction of replication forks. Each molecule must be labeled with the origin of replication on both strands, leading and lagging strands labeled, template or newly synthesized, DNA...