TY - JOUR
T1 - Triple helical collagen-like peptides
T2 - Engineering and applications in matrix biology
AU - Koide, Takaki
N1 - Funding Information:
Professor Kouki Kitagawa and Dr. Hitomi Kosugi-Okano are thanked for their critical readings of this manuscript. Projects on collagen research in the author’s laboratory were supported by a Grant-in-Aid for Scientific Research on Priority Areas (No. 15032238) and a Grant-in-Aid for the Encouragement of Young Scientists (No. 16689004) by MEXT, Japan.
PY - 2005
Y1 - 2005
N2 - Collagen, a large insoluble protein with a characteristic triple helical structure, is found as the most prominent component of extracellular matrix. The functions of collagen are not limited to providing mechanical strength to various tissues and organs as a structural protein, as it has been pointed out that collagen exhibits various biological functions through specific interactions with other macromolecules. However, the use of native triple helical collagen is often troublesome because of its insolubility and gelating properties. Instead, triple helical collagen-like peptides have been designed and are used as collagen surrogates in studies on collagen structure, stability, and biological functions including binding to other proteins and cultured cells. This article reviews recent progress in peptide design, synthesis, and the applications of collagen-like peptides in current matrix biology, while emphasizing the advantages of the peptide-based strategy.
AB - Collagen, a large insoluble protein with a characteristic triple helical structure, is found as the most prominent component of extracellular matrix. The functions of collagen are not limited to providing mechanical strength to various tissues and organs as a structural protein, as it has been pointed out that collagen exhibits various biological functions through specific interactions with other macromolecules. However, the use of native triple helical collagen is often troublesome because of its insolubility and gelating properties. Instead, triple helical collagen-like peptides have been designed and are used as collagen surrogates in studies on collagen structure, stability, and biological functions including binding to other proteins and cultured cells. This article reviews recent progress in peptide design, synthesis, and the applications of collagen-like peptides in current matrix biology, while emphasizing the advantages of the peptide-based strategy.
KW - Collagen
KW - Peptides
KW - Triple helix
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U2 - 10.1080/03008200591008518
DO - 10.1080/03008200591008518
M3 - Review article
C2 - 16147856
AN - SCOPUS:24644503524
SN - 0300-8207
VL - 46
SP - 131
EP - 141
JO - Connective Tissue Research
JF - Connective Tissue Research
IS - 3
ER -