Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and hold immense promise for active and targeted drug delivery. Most (if not all) of these micro- and nanomotors described to date are fabricated using a commercially available enzyme, despite claims that some commercial preparations may not have a sufficiently high degree of purity for downstream applications. In this study, the purity of a commercial urease, an enzyme frequently used to power the motion of micro- and nanomotors, was evaluated and found to be impure. After separating the hexameric urease from the protein impurities by size-exclusion chromatography, the hexameric urease was subsequently characterized and used to functionalize hollo...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and ho...
Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and ho...
Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and ho...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
\u3cp\u3eThe use of enzyme catalysis to power micro- and nanomachines offers unique features such as...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and ho...
Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and ho...
Enzyme-powered micro- and nanomotors make use of biocatalysis to self-propel in aqueous media and ho...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
\u3cp\u3eThe use of enzyme catalysis to power micro- and nanomachines offers unique features such as...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
Nature has inspired the creation of artificial micro- and nanomotors that self-propel converting che...
The use of enzyme catalysis to power micro- and nanomachines offers unique features such as biocompa...