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25. Base pairing in DNA, II. Refer to the previous problem. BIO Figure 17.44 shows the bonding of the cytosine and gua- nine molecules. The O-H and H-N distances are each 0.110 nm. In this case, assume that the bonding is due only to the forces along the O-H-O, N-H-N, and 0-H-N combinations, and assume also that these three combinations are parallel to each other. Calculate the net force that cytosine exerts on guanine due to the preceding three combinations. Is this force attractive or repulsive? H) bounmam ad he H) 0.290 nm Guanine H Cytosine 0.300 nm (H) N) H 0.290 nm H H)

25. Base pairing in DNA, II. Refer to the previous problem. BIO Figure 17.44 shows the bonding of the cytosine and gua- nine molecules. The O-H and H-N distances are each 0.110 nm. In this case, assume that the bonding is due only to the forces along the O-H-O, N-H-N, and 0-H-N combinations, and assume also that these three combinations are parallel to each other. Calculate the net force that cytosine exerts on guanine due to the preceding three combinations. Is this force attractive or repulsive? H) bounmam ad he H) 0.290 nm Guanine H Cytosine 0.300 nm (H) N) H 0.290 nm H H)

Organic Chemistry
Organic Chemistry
8th Edition
ISBN:9781305580350
Author:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. Foote
Publisher:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. Foote
Chapter28: Nucleic Acids
Section: Chapter Questions
Problem 28.37P
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25. . Base pairing in DNA, II. Refer to the previous problem. BIO Figure 17.44 shows the bonding of the cytosine and gua- nine molecules. The O-H and H-N distances are each 0.110 nm. In this case, assume that the bonding is due only to the forces along the O-H-O, N-H-N, and 0-H-N combinations, and assume also that these three combinations are parallel to each other. Calculate the net force that cytosine exerts on guanine due to the preceding three combinations. Is this force attractive or repulsive? H) unmm ad he 0.290 nm Guanine H) Cytosine 0.300 nm H) (N) H 0.290 nm H-N (H)
Transcribed Image Text:25. . Base pairing in DNA, II. Refer to the previous problem. BIO Figure 17.44 shows the bonding of the cytosine and gua- nine molecules. The O-H and H-N distances are each 0.110 nm. In this case, assume that the bonding is due only to the forces along the O-H-O, N-H-N, and 0-H-N combinations, and assume also that these three combinations are parallel to each other. Calculate the net force that cytosine exerts on guanine due to the preceding three combinations. Is this force attractive or repulsive? H) unmm ad he 0.290 nm Guanine H) Cytosine 0.300 nm H) (N) H 0.290 nm H-N (H)
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