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Characterization of short-chain poly3-hydroxybutyrate in baker's yeast |
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| Authors: | Suzuki Yoshikatsu Esumi Yasuaki Koshino Hiroyuki Ueki Masashi Doi Yoshiharu |
| Affiliation: | Polymer Chemistry Laboratory, RIKEN Institute, Hirosawa 2-1, Wako-shi, Saitama 351-0198, Japan. yoshi@riken.jp |
| Abstract: | A short-chain poly3-hydroxybutyrate including four comonomers, originating from a complex with calcium polyphosphate, was isolated from commercial baker's yeast cells (Saccharomyces cerevisiae) and characterized as the second complexed poly(3-hydroxyalkanoate) (cPHA) in eukaryotes. The number-average molecular weight of 4982.5 Da with a polydispersity index of 1.11 was much lower than that of beet cPHA previously isolated. End-group analysis suggested that at least 60% of the molecules form the cyclic structures. Here, the organism-dependent structural diversity of cPHAs was completely established. It was also found that a change of culture medium influences the molecular weight but not the polydispersity of baker's yeast cPHA. |
| Keywords: | Saccharomycs cerevisiae Baker’s yeast Time-of-flight MALDI MS Number-average molecular weight Weight-average molecular weight Polydispersity Short-chain poly3-hydroxyalkanoate cPHA |
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