User:Eric Martz/Ramachandran Principle Quiz
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| + | The nine-question quiz below is offered to accompany the interactive [[Tutorial:Ramachandran principle and phi psi angles]], which is also available as a [http://tinyurl.com/RamachandranPrinciple Slideshow] and a [http://tinyurl.com/RamachandranPrincipleYoutube YouTube video]. | ||
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<quiz display=simple> | <quiz display=simple> | ||
{How many bonded atoms are required to constitute a | {How many bonded atoms are required to constitute a | ||
| - | + | dihedral (torsion) angle, such as phi or psi? | |
|type="()"} | |type="()"} | ||
- None | - None | ||
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+ 4 | + 4 | ||
- 5 | - 5 | ||
| - | ||[[Image:Phi-angle.png|150px|right]]The phi angle is defined by (1) the carboxy carbon from the previous amino acid; (2) N in the amino acid containing the phi bond; (3) C<sub>α</sub> in the amino acid containing the phi bond; and (4) the carboxy carbon of the amino acid containing the phi bond. | + | ||[[Image:Phi-angle.png|150px|right]]The phi [http://biomodel.uah.es/model5/prot/diedros_en.htm dihedral (torsion) angle] is defined by (1) the carboxy carbon from the previous amino acid; (2) N in the amino acid containing the phi bond; (3) C<sub>α</sub> in the amino acid containing the phi bond; and (4) the carboxy carbon of the amino acid containing the phi bond. |
{The number of phi and psi angles in an isolated amino acid (not in a polypeptide chain) is: | {The number of phi and psi angles in an isolated amino acid (not in a polypeptide chain) is: | ||
| - | |type=" | + | |type="()"} |
+ None | + None | ||
- 1 | - 1 | ||
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{The number of atoms held into a geometric plane by a peptide bond is: | {The number of atoms held into a geometric plane by a peptide bond is: | ||
| - | |type=" | + | |type="()"} |
- 3 | - 3 | ||
- 4 | - 4 | ||
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{'''Questions below may have <font color="red">more than one</font> correct answer.'''} | {'''Questions below may have <font color="red">more than one</font> correct answer.'''} | ||
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| + | {The peptide bond is unable to rotate because | ||
| + | |type="[]"} | ||
| + | - It is a covalent bond. | ||
| + | - It is a non-covalent bond. | ||
| + | - Rotation would cause clashes. | ||
| + | + It is a partially double bond. | ||
{Phi and psi angles directly determine | {Phi and psi angles directly determine | ||
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- All possible phi-psi angle combinations. | - All possible phi-psi angle combinations. | ||
+ A limited range of phi-psi angle combinations. | + A limited range of phi-psi angle combinations. | ||
| - | + | - A limited range of phi angles with all possible psi angles. | |
- A limited range of psi angles with all possible phi angles. | - A limited range of psi angles with all possible phi angles. | ||
| - | ||See [ | + | ||See [http://bioinformatics.org/molvis/phipsi/index.htm#plot Ramachandran Plot]. |
{Common secondary structures are energetically favored because | {Common secondary structures are energetically favored because | ||
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+ Where alpha helices occur. | + Where alpha helices occur. | ||
+ Where beta strands occur. | + Where beta strands occur. | ||
| - | - Where | + | - Where alpha helices, beta strands, and turns do not occur. |
+ Where the phi and psi angles are energetically favorable. | + Where the phi and psi angles are energetically favorable. | ||
</quiz> | </quiz> | ||
| + | [[Category:Pages with quizzes]] | ||
Current revision
The nine-question quiz below is offered to accompany the interactive Tutorial:Ramachandran principle and phi psi angles, which is also available as a Slideshow and a YouTube video.
