Antifreeze Peptides and Glycopeptides, and Their Derivatives: Potential Uses in Biotechnology

Antifreeze proteins (AFPs) and glycoproteins (AFGPs), collectively called AF(G)Ps, constitute a diverse class of proteins found in various Arctic and Antarctic fish, as well as in amphibians, plants, and insects. These compounds possess the ability to inhibit the formation of ice and are therefore e...

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Bibliographic Details
Published in:Marine Drugs
Main Authors: Hyun-Cheol Kim, Hak Jun Kim, Hye Yeon Koh, Hye-Eun Shim, Hackwon Do, Sung Gu Lee, Ravichandran N. Murugan, Jun Hyuck Lee, Jeong Kyu Bang
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2013
Subjects:
antifreeze glycopeptide
antifreeze protein
recrystallization inhibition
thermal hysteresis
Biology (General)
QH301-705.5
Antarctic
Arctic
Antarc*
Online Access:https://doi.org/10.3390/md11062013
https://doaj.org/article/a8ac291b26194518abd5a7b3513cfb18
Description
Summary:Antifreeze proteins (AFPs) and glycoproteins (AFGPs), collectively called AF(G)Ps, constitute a diverse class of proteins found in various Arctic and Antarctic fish, as well as in amphibians, plants, and insects. These compounds possess the ability to inhibit the formation of ice and are therefore essential to the survival of many marine teleost fishes that routinely encounter sub-zero temperatures. Owing to this property, AF(G)Ps have potential applications in many areas such as storage of cells or tissues at low temperature, ice slurries for refrigeration systems, and food storage. In contrast to AFGPs, which are composed of repeated tripeptide units (Ala-Ala-Thr)n with minor sequence variations, AFPs possess very different primary, secondary, and tertiary structures. The isolation and purification of AFGPs is laborious, costly, and often results in mixtures, making characterization difficult. Recent structural investigations into the mechanism by which linear and cyclic AFGPs inhibit ice crystallization have led to significant progress toward the synthesis and assessment of several synthetic mimics of AFGPs. This review article will summarize synthetic AFGP mimics as well as current challenges in designing compounds capable of mimicking AFGPs. It will also cover our recent efforts in exploring whether peptoid mimics can serve as structural and functional mimics of native AFGPs.

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