Coaggregation of κ‐Casein and β‐Lactoglobulin Produces Morphologically Distinct Amyloid Fibrils |
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Authors: | Jared K Raynes Li Day Pauline Crepin John A Carver |
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Affiliation: | 1. CSIRO Agriculture and Food, Werribee, Victoria, Australia;2. AgResearch Limited, Grasslands Research Centre, Palmerston North, New Zealand;3. école Nationale Supérieure de Chimie, Biologie et Physique, Bordeaux, France;4. Research School of Chemistry, The Australian National University, Acton, Australian Capital Territory, Australia |
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Abstract: | The unfolding, misfolding, and aggregation of proteins lead to a variety of structural species. One form is the amyloid fibril, a highly aligned, stable, nanofibrillar structure composed of β‐sheets running perpendicular to the fibril axis. β‐Lactoglobulin (β‐Lg) and κ‐casein (κ‐CN) are two milk proteins that not only individually form amyloid fibrillar aggregates, but can also coaggregate under environmental stress conditions such as elevated temperature. The aggregation between β‐Lg and κ‐CN is proposed to proceed via disulfide bond formation leading to amorphous aggregates, although the exact mechanism is not known. Herein, using a range of biophysical techniques, it is shown that β‐Lg and κ‐CN coaggregate to form morphologically distinct co‐amyloid fibrillar structures, a phenomenon previously limited to protein isoforms from different species or different peptide sequences from an individual protein. A new mechanism of aggregation is proposed whereby β‐Lg and κ‐CN not only form disulfide‐linked aggregates, but also amyloid fibrillar coaggregates. The coaggregation of two structurally unrelated proteins into cofibrils suggests that the mechanism can be a generic feature of protein aggregation as long as the prerequisites for sequence similarity are met. |
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Keywords: | β ‐lactoglobulin amyloid fibril casein molecular chaperone protein aggregation coaggregation |
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