The two strands of the DNA molecule are held together by hydrogen bonds between base pairs.When an enzyme unzips the molecule to separate the two strands, it has to break these hydrogen bonds. A simplified model represents a hydrogen bond as the electrostatic interaction of four point charges arranged along a straight line. The figure shows the arrangement of charges for one of the hydrogen bonds between adenine and thymine. Estimate the energy that must be supplied to break this bond. N 91 0.120 nm Adenine H 92 Hydrogen bond 0.180 nm 0 93 0.120 nm Thymine C 94 where g₁= -0.310e, g2= +0.310e, 93= -0.410e, and g4 = +0.410e. | J. The energy that must be supplied to break the hydrogen bond is
The two strands of the DNA molecule are held together by hydrogen bonds between base pairs.When an enzyme unzips the molecule to separate the two strands, it has to break these hydrogen bonds. A simplified model represents a hydrogen bond as the electrostatic interaction of four point charges arranged along a straight line. The figure shows the arrangement of charges for one of the hydrogen bonds between adenine and thymine. Estimate the energy that must be supplied to break this bond. N 91 0.120 nm Adenine H 92 Hydrogen bond 0.180 nm 0 93 0.120 nm Thymine C 94 where g₁= -0.310e, g2= +0.310e, 93= -0.410e, and g4 = +0.410e. | J. The energy that must be supplied to break the hydrogen bond is
College Physics
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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:The two strands of the DNA molecule are held together by hydrogen bonds between base pairs.When an enzyme unzips the molecule
to separate the two strands, it has to break these hydrogen bonds. A simplified model represents a hydrogen bond as the electrostatic
interaction of four point charges arranged along a straight line. The figure shows the arrangement of charges for one of the hydrogen
bonds between adenine and thymine. Estimate the energy that must be supplied to break this bond.
N
91
0.120 nm
Adenine
H
92
Hydrogen bond
0.180 nm
0
93
0.120 nm
Thymine
C
94
where g₁= -0.310e, g2= +0.310e, 93= -0.410e, and g4 = +0.410e.
| J.
The energy that must be supplied to break the hydrogen bond is
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