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Theoretical Studies of Intracellular Concentration of Micro-organisms' Metabolites.


ABSTRACT: With the rapid growth of micro-organism metabolic networks, acquiring the intracellular concentration of microorganisms' metabolites accurately in large-batch is critical to the development of metabolic engineering and synthetic biology. Complementary to the experimental methods, computational methods were used as effective assessing tools for the studies of intracellular concentrations of metabolites. In this study, the dataset of 130 metabolites from E. coli and S. cerevisiae with available experimental concentrations were utilized to develop a SVM model of the negative logarithm of the concentration (-logC). In this statistic model, in addition to common descriptors of molecular properties, two special types of descriptors including metabolic network topologic descriptors and metabolic pathway descriptors were included. All 1997 descriptors were finally reduced into 14 by variable selections including genetic algorithm (GA). The model was evaluated through internal validations by 10-fold and leave-one-out (LOO) cross-validation, as well as external validations by predicting -logC values of the test set. The developed SVM model is robust and has a strong predictive potential (n?=?91, m?=?14, R2?=?0.744, RMSE?=?0.730, Q2?=?0.57; R2p?=?0.59, RMSEp?=?0.702, Q2p?=?0.58). An effective tool could be provided by this analysis for the large-batch prediction of the intracellular concentrations of the micro-organisms' metabolites.

SUBMITTER: Yang HF 

PROVIDER: S-EPMC5567373 | biostudies-literature | 2017 Aug

REPOSITORIES: biostudies-literature

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Theoretical Studies of Intracellular Concentration of Micro-organisms' Metabolites.

Yang Hai-Feng HF   Zhang Xiao-Nan XN   Li Yan Y   Zhang Yong-Hong YH   Xu Qin Q   Wei Dong-Qing DQ  

Scientific reports 20170822 1


With the rapid growth of micro-organism metabolic networks, acquiring the intracellular concentration of microorganisms' metabolites accurately in large-batch is critical to the development of metabolic engineering and synthetic biology. Complementary to the experimental methods, computational methods were used as effective assessing tools for the studies of intracellular concentrations of metabolites. In this study, the dataset of 130 metabolites from E. coli and S. cerevisiae with available ex  ...[more]

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