The major element of secondary structure in myoglobin and hemoglobin is

Structure and Properties of Peptides
The major element of secondary structure in myoglobin and hemoglobin is

the P-strand

the reverse turn

All of these

the a-helix

the P-strand

the reverse turn

All of these

the a-helix

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Structure and Properties of Peptides
The resonance structures that can be drawn for the peptide bond indicate that the peptide bond

has partial double bond character

is stronger than an ordinary single bond

both (a) and (b)

is still not completely understood

has partial double bond character

is stronger than an ordinary single bond

both (a) and (b)

is still not completely understood

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Structure and Properties of Peptides
The heme is held in place by a bond between

the Fe3+ and cysteine

the Fe2+ and histidine

the Fe2+ and cysteine

the Fe3+ and histidine

the Fe3+ and cysteine

the Fe2+ and histidine

the Fe2+ and cysteine

the Fe3+ and histidine

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Structure and Properties of Peptides
Secondary structure in protein refers to

regular folding of regions of the polypeptide chain

three dimensional arrangement of all amino acids in polypeptide chain

linear sequence of amino acids joined together by peptide bond

protein made up of more than one polypeptide chain

regular folding of regions of the polypeptide chain

three dimensional arrangement of all amino acids in polypeptide chain

linear sequence of amino acids joined together by peptide bond

protein made up of more than one polypeptide chain

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Structure and Properties of Peptides
The oxygen in hemoglobin and myoglobin is bound to

histidine residues in the protein

the iron atom in the heme group

lysine residues in the protein

the nitrogen atoms on the heme

histidine residues in the protein

the iron atom in the heme group

lysine residues in the protein

the nitrogen atoms on the heme

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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?

C20H32O11N10

C20H68O29N10

C20H40O10N10

C20H50O20N10

C20H32O11N10

C20H68O29N10

C20H40O10N10

C20H50O20N10

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Structure and Properties of Peptides

Structure and Properties of Peptides The major element of secondary structure in myoglobin and hemoglobin is

Structure and Properties of Peptides The resonance structures that can be drawn for the peptide bond indicate that the peptide bond

Structure and Properties of Peptides The heme is held in place by a bond between

Structure and Properties of Peptides Secondary structure in protein refers to

Structure and Properties of Peptides The oxygen in hemoglobin and myoglobin is bound to

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
The major element of secondary structure in myoglobin and hemoglobin is

Structure and Properties of Peptides
The resonance structures that can be drawn for the peptide bond indicate that the peptide bond

Structure and Properties of Peptides
The heme is held in place by a bond between

Structure and Properties of Peptides
Secondary structure in protein refers to

Structure and Properties of Peptides
The oxygen in hemoglobin and myoglobin is bound to

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?