Casein structures in the context of unfolded proteins

David C. Thorn; Heath Ecroyd; John A. Carver; Carl Holt

doi:10.1016/j.idairyj.2014.07.008

Casein structures in the context of unfolded proteins

David C. Thorn, Heath Ecroyd, John A. Carver, Carl Holt^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

69 Citations (Scopus)

Abstract

Caseins were among the first proteins to be recognised as functional but unfolded. Many others are now known, providing better models of casein behaviour than either detergents or folded proteins. Caseins are members of a paralogous group of unfolded phosphoproteins, some of which share the ability to sequester amorphous calcium phosphate through phosphate centres. Non-covalent interactions of caseins can be through Pro- and Gln-rich sequences. Similar sequences in other unfolded proteins can also form open and highly hydrated structures such as gels, mucus and slimes. Many unfolded proteins, including κ- and α_S2-caseins, can form amyloid fibrils under physiological conditions. The sequence-specific interactions that lead to fibrils can be reduced or eliminated by low specificity interactions among a mixture of caseins to yield, instead, amorphous aggregates. The size of amorphous whole casein aggregates is limited by the C-terminal half of κ-casein whose sequence resembles that of a soluble mucin.

Original language	English
Pages (from-to)	2-11
Number of pages	10
Journal	International Dairy Journal
Volume	46
DOIs	https://doi.org/10.1016/j.idairyj.2014.07.008
Publication status	Published - 1 Jul 2015

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title = "Casein structures in the context of unfolded proteins",

abstract = "Caseins were among the first proteins to be recognised as functional but unfolded. Many others are now known, providing better models of casein behaviour than either detergents or folded proteins. Caseins are members of a paralogous group of unfolded phosphoproteins, some of which share the ability to sequester amorphous calcium phosphate through phosphate centres. Non-covalent interactions of caseins can be through Pro- and Gln-rich sequences. Similar sequences in other unfolded proteins can also form open and highly hydrated structures such as gels, mucus and slimes. Many unfolded proteins, including κ- and αS2-caseins, can form amyloid fibrils under physiological conditions. The sequence-specific interactions that lead to fibrils can be reduced or eliminated by low specificity interactions among a mixture of caseins to yield, instead, amorphous aggregates. The size of amorphous whole casein aggregates is limited by the C-terminal half of κ-casein whose sequence resembles that of a soluble mucin.",

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AU - Thorn, David C.

AU - Ecroyd, Heath

AU - Carver, John A.

AU - Holt, Carl

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N2 - Caseins were among the first proteins to be recognised as functional but unfolded. Many others are now known, providing better models of casein behaviour than either detergents or folded proteins. Caseins are members of a paralogous group of unfolded phosphoproteins, some of which share the ability to sequester amorphous calcium phosphate through phosphate centres. Non-covalent interactions of caseins can be through Pro- and Gln-rich sequences. Similar sequences in other unfolded proteins can also form open and highly hydrated structures such as gels, mucus and slimes. Many unfolded proteins, including κ- and αS2-caseins, can form amyloid fibrils under physiological conditions. The sequence-specific interactions that lead to fibrils can be reduced or eliminated by low specificity interactions among a mixture of caseins to yield, instead, amorphous aggregates. The size of amorphous whole casein aggregates is limited by the C-terminal half of κ-casein whose sequence resembles that of a soluble mucin.

AB - Caseins were among the first proteins to be recognised as functional but unfolded. Many others are now known, providing better models of casein behaviour than either detergents or folded proteins. Caseins are members of a paralogous group of unfolded phosphoproteins, some of which share the ability to sequester amorphous calcium phosphate through phosphate centres. Non-covalent interactions of caseins can be through Pro- and Gln-rich sequences. Similar sequences in other unfolded proteins can also form open and highly hydrated structures such as gels, mucus and slimes. Many unfolded proteins, including κ- and αS2-caseins, can form amyloid fibrils under physiological conditions. The sequence-specific interactions that lead to fibrils can be reduced or eliminated by low specificity interactions among a mixture of caseins to yield, instead, amorphous aggregates. The size of amorphous whole casein aggregates is limited by the C-terminal half of κ-casein whose sequence resembles that of a soluble mucin.

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JO - International Dairy Journal

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Casein structures in the context of unfolded proteins

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