Label the axes and properly note the range of values

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Unformatted text preview: ns are stronger in water than they are in vacuum. 2. A) Draw the Ramachandran diagram for an alanine dipeptide. Mark areas corresponding to allowed secondary structures and identify the respective secondary structures. Label the axes and properly note the range of values on both the axes. (3 points) Refer to figure 4.20(A) B) How would the Ramachandran diagram differ for a glycine dipeptide? Explain your answer. (1 point) Glycine is much less restricted in its conformations due to its small R group and thus various phi psi angles are allowed (outside the normal boundaries for secondary structures). 3. Draw the structure and w...
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This test prep was uploaded on 03/05/2014 for the course MCB 100A taught by Professor Kuryian during the Fall '09 term at University of California, Berkeley.

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