The Role of Semidisorder in Temperature Adaptation of Bacterial FlgM Proteins
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Yang, Yuedong
Cao, Zanxia
Li, Zhixiu
Zhao, Huiying
Zhou, Yaoqi
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Abstract
Probabilities of disorder for FlgM proteins of 39 species whose optimal growth temperature ranges from 273 K (0é to 368 K (95é were predicted by a newly developed method called Sequence-based Prediction with Integrated NEural networks for Disorder (SPINE-D). We showed that the temperature-dependent behavior of FlgM proteins could be separated into two subgroups according to their sequence lengths. Only shorter sequences evolved to adapt to high temperatures (>318 K or 45é. Their ability to adapt to high temperatures was achieved through a transition from a fully disordered state with little secondary structure to a semidisordered state with high predicted helical probability at the N-terminal region. The predicted results are consistent with available experimental data. An analysis of all orthologous protein families in 39 species suggests that such a transition from a fully disordered state to semidisordered and/or ordered states is one of the strategies employed by nature for adaptation to high temperatures.
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Biophysical Journal
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105
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11
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© 2013 Biophysical Society. The attached file is reproduced here in accordance with the copyright policy of the publisher. Please refer to the journal's website for access to the definitive, published version.
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Physical sciences
Biological physics
Chemical sciences
Biological sciences