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Development of an Autofluorescent Whole-Cell Biocatalyst by Displaying Dual Functional Moieties on Escherichia coli Cell Surfaces and Construction of a Coculture with Organophosphate-Mineralizing Activity
Appl. Environ. Microbiol. Yang et al. 74: 7733

Supplemental material

Files in this Data Supplement:

  • Supplemental file 1 - Cell growth kinetics of E. coli XL1-Blue/pLOG18/pPNCO33 and XL1-Blue/pUC18/pVLT33 (Fig. S1); utilization of 0.8 mM p-nitrophenol (PNP) as the sole carbon and nitrogen source by strain LL-1 (Fig. S2); proposed pathway for the biodegradation of paraoxon by constructed coculture (XL1-Blue/LL-1) (Fig. S3); biofilm formation in a single culture and coculture of E. coli XL1-Blue and biofilm-forming Ochrobactrum sp. strain LL-1 (Fig. S4); isolation and identification of a PNP-degrading bacterium; degradation of PNP by Ochrobactrum sp. strain LL-1.
    Zipped MS Word document, 35K.



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