For the unfolding reaction of Protein G, ΔH° =210.6 kJ/mol, this means that

Protein Stability
For the unfolding reaction of Protein G, ΔH° =210.6 kJ/mol, this means that

folding is favored enthalpically

unfolding is favored enthalpically

the entropy is negative at all temperatures

the entropy is positive at all temperatures

folding is favored enthalpically

unfolding is favored enthalpically

the entropy is negative at all temperatures

the entropy is positive at all temperatures

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Protein Stability
Buried hydrophobic side chains in a globular protein fit into a hole formed by the side chains of

13-15 other amino acids

5-7 other amino acids

1-3 other amino acids

9-12 other amino acids

13-15 other amino acids

5-7 other amino acids

1-3 other amino acids

9-12 other amino acids

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Protein Stability
At the midpoint of a temperature transition curve,

All of these

[Native] = [Unfolded]

Keq = 1.0 and ΔG = 0

half of the protein is denatured

All of these

[Native] = [Unfolded]

Keq = 1.0 and ΔG = 0

half of the protein is denatured

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Protein Stability
Unpaired H-bond donors and acceptors are found in the hydrophobic core of a protein

only on Pro residues

only at the ends of a-helices

only at the turns connecting p-strands

rarely

only on Pro residues

only at the ends of a-helices

only at the turns connecting p-strands

rarely

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Protein Stability
Which of the following forces is the most favorable for protein folding?

Vander Waals interactions

Hydrogen bonds

Hydrophobic Interactions

Conformational entropy

Vander Waals interactions

Hydrogen bonds

Hydrophobic Interactions

Conformational entropy

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Protein Stability
Since ΔG° = -RTlnK

a 10-fold decrease in K increases ΔG° by about 10-fold

a 10-fold increase in K decreases ΔG° by about 10-fold

a 10-fold increase in K decreases ΔG° by about 2.3*RT

a 10-fold decrease in K decreases ΔG° by about 2.3*RT

a 10-fold decrease in K increases ΔG° by about 10-fold

a 10-fold increase in K decreases ΔG° by about 10-fold

a 10-fold increase in K decreases ΔG° by about 2.3*RT

a 10-fold decrease in K decreases ΔG° by about 2.3*RT

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Protein Stability

Protein Stability For the unfolding reaction of Protein G, ΔH° =210.6 kJ/mol, this means that

Protein Stability Buried hydrophobic side chains in a globular protein fit into a hole formed by the side chains of

Protein Stability At the midpoint of a temperature transition curve,

Protein Stability Unpaired H-bond donors and acceptors are found in the hydrophobic core of a protein

Protein Stability Which of the following forces is the most favorable for protein folding?

Protein Stability Since ΔG° = -RTlnK

Protein Stability
For the unfolding reaction of Protein G, ΔH° =210.6 kJ/mol, this means that

Protein Stability
Buried hydrophobic side chains in a globular protein fit into a hole formed by the side chains of

Protein Stability
At the midpoint of a temperature transition curve,

Protein Stability
Unpaired H-bond donors and acceptors are found in the hydrophobic core of a protein

Protein Stability
Which of the following forces is the most favorable for protein folding?

Protein Stability
Since ΔG° = -RTlnK