Disulfide bonds most often stabilize the native structure of

Structure and Properties of Peptides
Disulfide bonds most often stabilize the native structure of

hydrophobic proteins

extracellular proteins

dimeric proteins

intracellular proteins

hydrophobic proteins

extracellular proteins

dimeric proteins

intracellular proteins

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Structure and Properties of Peptides
Hydrogen bonds in a-helices are

more numerous than Vander Waals interactions

not present at Phe residues

roughly parallel to the helix axis

analogous to the steps in a spiral staircase

more numerous than Vander Waals interactions

not present at Phe residues

roughly parallel to the helix axis

analogous to the steps in a spiral staircase

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Structure and Properties of Peptides
Hemoglobin has quaternary structure and is made up of

five polypeptide chains, two α-chains and three β-chains

two polypeptide chains, one α-chains and one β-chains

four polypeptide chains, two α-chains and two β-chains

six polypeptide chains, two α-chains and four β-chains

five polypeptide chains, two α-chains and three β-chains

two polypeptide chains, one α-chains and one β-chains

four polypeptide chains, two α-chains and two β-chains

six polypeptide chains, two α-chains and four β-chains

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Structure and Properties of Peptides
The peptide bond in proteins is

usually cis unless proline is the next amino acid

only found between proline residues

usually trans unless proline is the next amino acid

is planar because of steric hinderance

usually cis unless proline is the next amino acid

only found between proline residues

usually trans unless proline is the next amino acid

is planar because of steric hinderance

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Structure and Properties of Peptides
Heme is the binding pocket of myoglobin and hemoglobin and is composed of

hydrophobic residues

negatively charged residues

polar residues

positively charged residues

hydrophobic residues

negatively charged residues

polar residues

positively charged residues

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Structure and Properties of Peptides
The molecular formula for glycine is C2H5O2N. What would be the molecular formula for a linear oligomer made by linking ten glycine molecules together by condensation synthesis?

C20H50O20N10

C20H68O29N10

C20H40O10N10

C20H32O11N10

C20H50O20N10

C20H68O29N10

C20H40O10N10

C20H32O11N10

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Structure and Properties of Peptides

Structure and Properties of Peptides Disulfide bonds most often stabilize the native structure of

Structure and Properties of Peptides Hydrogen bonds in a-helices are

Structure and Properties of Peptides Hemoglobin has quaternary structure and is made up of

Structure and Properties of Peptides The peptide bond in proteins is

Structure and Properties of Peptides Heme is the binding pocket of myoglobin and hemoglobin and is composed of

Structure and Properties of Peptides The molecular formula for glycine is C2H5O2N. What would be the molecular formula for a linear oligomer made by linking ten glycine molecules together by condensation synthesis?

Structure and Properties of Peptides
Disulfide bonds most often stabilize the native structure of

Structure and Properties of Peptides
Hydrogen bonds in a-helices are

Structure and Properties of Peptides
Hemoglobin has quaternary structure and is made up of

Structure and Properties of Peptides
The peptide bond in proteins is

Structure and Properties of Peptides
Heme is the binding pocket of myoglobin and hemoglobin and is composed of

Structure and Properties of Peptides
The molecular formula for glycine is C2H5O2N. What would be the molecular formula for a linear oligomer made by linking ten glycine molecules together by condensation synthesis?