Thermostabilization of ovalbumin in a developing egg by an alkalinity-regulated, two-step process

Native ovalbumin has been known to convert into a heat-stable form, S-ovalbumin, either in an avian shell egg or in an isolated ovalbumin solution. Recently, similar conversion of ovalbumin in fertile eggs was also reported. We found that the conversion into S-ovalbumin was slower in fertile eggs th...

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Veröffentlicht in:Bioscience, biotechnology, and biochemistry biotechnology, and biochemistry, 2001-09, Vol.65 (9), p.2021-2027
Hauptverfasser: Hatta, H. (Kyoto Women's Univ. (Japan)), Nomura, M, Takahashi, N, Hirose, M
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Sprache:eng
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Zusammenfassung:Native ovalbumin has been known to convert into a heat-stable form, S-ovalbumin, either in an avian shell egg or in an isolated ovalbumin solution. Recently, similar conversion of ovalbumin in fertile eggs was also reported. We found that the conversion into S-ovalbumin was slower in fertile eggs than in unfertile eggs under the same incubation conditions on the basis of calorimetric analyses for the samples isolated from those eggs. During the incubation, there were differential pH changes of white in the fertile and un fertile eggs. When the pH of purified ovalbumin was manually adjusted so as to simulate the pH changes of egg white during the incubation, the course of the conversion into S-ovalbumin was very similar to that either in fertile or un fertile eggs. Therefore, we conclude that thermostabilization of ovalbumin in fertile eggs proceeds by a certain mechanism which depends on the alkalinity of egg white.
ISSN:0916-8451
1347-6947
DOI:10.1271/bbb.65.2021