Barbara Imperiali,1 Dierdre A. Pearce,2 Jean-Ernest Sohna Sohna,3 Grant Walkup,4 Alicia Torrado4
1California Institute of Technology and Massachusetts Institue of Technology (United States) 2California Institute of Technology and Massachusetts Institute of Technology (United States) 3California Institute of Technology (United Kingdom) 4California Institute of Technology (United States)
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Naturally occurring motifs have been redesigned to product fluorescent peptidyl-chemosensors that sensitively and selectively recognize Cu(II) or Fe(III). The modular nature of peptide architecture allows preparation and evaluation of potential sensors on solid supports.
Barbara Imperiali,Dierdre A. Pearce,Jean-Ernest Sohna Sohna,Grant Walkup, andAlicia Torrado
"Peptide platforms for metal ion sensing", Proc. SPIE 3858, Advanced Materials and Optical Systems for Chemical and Biological Detection, (15 December 1999); https://doi.org/10.1117/12.372909
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Barbara Imperiali, Dierdre A. Pearce, Jean-Ernest Sohna Sohna, Grant Walkup, Alicia Torrado, "Peptide platforms for metal ion sensing," Proc. SPIE 3858, Advanced Materials and Optical Systems for Chemical and Biological Detection, (15 December 1999); https://doi.org/10.1117/12.372909