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DNAase I footprinting of restriction enzymes
Biochemical and Biophysical Research Communications, 1988DNAase I footprinting of restriction enzymes has been achieved by using calcium containing digestion buffers so that the enzymes bind to but do not cleave DNA. EcoR1 produces a footprint 17 bases long, overestimating the region of contact with DNA by about 7-8 base pairs.
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Restriction enzymes and their use in molecular biology: An overview
Journal of Biosciences, 2019F. Di Felice, G. Micheli, G. Camilloni
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Programmable DNA-Guided Artificial Restriction Enzymes.
ACS Synthetic Biology, 2017Behnam Enghiad, Huimin Zhao
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Modifying Specificities of Restriction Enzymes
1991For the last five years, our laboratory has been studying various aspects of controlled cleavage of DNA, both for (1) the 50 bp-10 kb range of single-stranded (ss) and double-stranded (ds) DNA fragments, plasmids or phages, and (2) for very large genomes of bacteria, yeast and higher eukaryotes.
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Rapid Cloning For Protein Crystallography Using Type IIS Restriction Enzymes
, 2013Nickolaus R. Galloway +4 more
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From restriction factors to restriction enzymes
Reviews in Medical Virology, 2004openaire +3 more sources
PNAzymes that are artificial RNA restriction enzymes.
Journal of the American Chemical Society, 2010M. Murtola, M. Wenska, R. Strömberg
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