References
Zhao RF, Wang H, Ji TJ et al (2015) Biodegradable cationic ε-poly-L-lysine-conjugated polymeric nanoparticles as a new effective antibacterial agent. Sci Bull 60:216–226
Liu JX, Zhao Z, Orfe L et al (2016) Soil-borne reservoirs of antibiotic-resistant bacteria are established following therapeutic treatment of dairy calves. Environ Microbiol 18:557–564
Fernandes P (2006) Antibacterial discovery and development-the failure of success? Nat Biotechnol 24:1497–1503
Wivagg CN, Bhattacharyya RP, Hung DT (2014) Mechanisms of β-lactam killing and resistance in the context of Mycobacterium tuberculosis. J Antibiot 67:645–654
Yang ZM, Ho PL, Liang GL et al (2007) Using β-lactamase to trigger supramolecular hydrogelation. J Am Chem Soc 129:266–267
Drawz SM, Bonomo RA (2010) Three decades of β-lactamase inhibitors. Clin Microbiol Rev 23:160–201
Philipp M, Bender ML (1971) Inhibition of serine proteases by arylboronic acids. Proc Natl Acad Sci USA 68:478–480
Li W, Dong K, Ren JS et al (2016) A β-lactamase-imprinted responsive hydrogel for the treatment of antibiotic-resistant bacteria. Angew Chem Int Ed 55:8049–8053
Zhang WB, Gao CY (2015) Recent advances in cell imaging and cytotoxicity of intracellular stimuli-responsive nanomaterials. Sci Bull 60:1973–1979
Bie ZJ, Chen Y, Ye J et al (2015) Boronate-affinity glycan-oriented surface imprinting: a new strategy to mimic lectins for the recognition of an intact glycoprotein and its characteristic fragments. Angew Chem Int Ed 54:10211–10215
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Lukuan Liu and Kaiguang Yang contributed equally to this work.
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Liu, L., Yang, K., Zhang, L. et al. Protein-imprinted material for the treatment of antibiotic-resistant bacteria. Sci. Bull. 61, 1890–1891 (2016). https://doi.org/10.1007/s11434-016-1207-7
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DOI: https://doi.org/10.1007/s11434-016-1207-7