section 11.1

Protein Fibers and Proteoglycans

177

Polypeptide

chain

\y Lysine

residue

KN

Lysyl

oxidase

H.

C'

Aidol

condensation

(-H20)

c= o

O

H

Aidol condensation

product

C'

O

H

O

H

Polypeptide

chain

(a)

Formation of aidol condensation product— linkage involving nonhelical

regions of the collagen molecule.

Polypeptide chain

(helical region)

Polypeptide chain

(nonhelical region)

Dehydro-

hydroxy-

lysino-

norleucine

(b)

Formation ofdehydrohydroxylysinonorleucine linkage.

Polypeptide chain

(helical region)

Polypeptide chain

(nonhelical region)

Polypeptide chains (nonhelical regions)

F orm ation o f dehydrohydroxylysinohydroxynorleucine(I), an aldim ine, and

hydroxylysino-5-keto-norIeucine{II), a ketam ine. T h e linkage in II is m ore

stable.

(d)

F orm ation o f pyridinoline cross-linkage, a polyfunctional cross-linkage.

F IG U R E 1 1 -3

Formation of cross-links in collagen. All cross-links are derived from lysyl and hydroxylysyl amino acid residues. The

initial step is the oxidative deamination of the s-NFU group of two amino acid residues located at certain strategic

positions (e.g., short nonhelical segments at both ends of the collagen molecule), with the formation of corresponding

aldehyde-containing residues, allysine and hydroxyallysine. This reaction occurs extracellularly and is catalyzed by

lysyl oxidase, a copper-dependent enzyme. The aldehyde groups react spontaneously with other aldehyde groups

located in the adjacent chain of the same molecule or adjacent molecule. The structures do not show carbohydrate

moieties for the sake of clarity.

,/ \ /