Implication of C-Terminal Deletion on the Structure and Stability of Bovine [beta]-casein
Bovine β-casein (β-CN) with its C-terminal truncated by chymosin digestion, β-CN-(f1-192), was examined and characterized using circular dichroism (CD) under various temperature conditions. CONTIN/LL analysis of the CD data revealed significant secondary structure disruption in β-CN-(f1-192) relativ...
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| Veröffentlicht in: | The Protein Journal 2005-11, Vol.24 (7-8), p.431 |
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| creator | Qi, Phoebe X Wickham, Edward D Piotrowski, Edwin G Fagerquist, Clifton K Farrell, Harold M |
| description | Bovine β-casein (β-CN) with its C-terminal truncated by chymosin digestion, β-CN-(f1-192), was examined and characterized using circular dichroism (CD) under various temperature conditions. CONTIN/LL analysis of the CD data revealed significant secondary structure disruption in β-CN-(f1-192) relative to its parent protein,β-CN, in the temperature range (5° to 70°C) studied. Near-UV CD spectra indicated significant temperature dependent structural changes. Analytical ultracentrifugation results showed significant reduction but not complete abolishment of self-association in β-CN-(f1-192) compared to whole β-casein at 2°-37°C. Furthermore, binding experiments with the common hydrophobic probe - 8-anilino-1- naphthalene sulfonic acid (ANS) illustrated that β-CN-(f1-192) is nearly incapable of binding to ANS relative to whole β-CN, suggesting a nearly complete open overall tertiary structure brought about by the C-terminal truncation. It has been demonstrated clearly that the tail peptide β-CN-(f193-209) is important in maintaining the hydrophobic core of β-CN but the residual association observed argues for a minor role for other sites as well.[PUBLICATION ABSTRACT] |
| doi_str_mv | 10.1007/s10930-005-7639-6 |
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CONTIN/LL analysis of the CD data revealed significant secondary structure disruption in β-CN-(f1-192) relative to its parent protein,β-CN, in the temperature range (5° to 70°C) studied. Near-UV CD spectra indicated significant temperature dependent structural changes. Analytical ultracentrifugation results showed significant reduction but not complete abolishment of self-association in β-CN-(f1-192) compared to whole β-casein at 2°-37°C. Furthermore, binding experiments with the common hydrophobic probe - 8-anilino-1- naphthalene sulfonic acid (ANS) illustrated that β-CN-(f1-192) is nearly incapable of binding to ANS relative to whole β-CN, suggesting a nearly complete open overall tertiary structure brought about by the C-terminal truncation. 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CONTIN/LL analysis of the CD data revealed significant secondary structure disruption in β-CN-(f1-192) relative to its parent protein,β-CN, in the temperature range (5° to 70°C) studied. Near-UV CD spectra indicated significant temperature dependent structural changes. Analytical ultracentrifugation results showed significant reduction but not complete abolishment of self-association in β-CN-(f1-192) compared to whole β-casein at 2°-37°C. Furthermore, binding experiments with the common hydrophobic probe - 8-anilino-1- naphthalene sulfonic acid (ANS) illustrated that β-CN-(f1-192) is nearly incapable of binding to ANS relative to whole β-CN, suggesting a nearly complete open overall tertiary structure brought about by the C-terminal truncation. 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| subjects | Naphthalene Protein folding |
| title | Implication of C-Terminal Deletion on the Structure and Stability of Bovine [beta]-casein |
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