The researchers next mutated it and screened for mutants that could sustain low-iron bacteria better than Syn-IF did. The result was Syn-F4, which catalyzed the same reaction as the natural esterase.
Korendovych of Syracuse University, not only because Syn-F4 works in bacteria but also because it has a simple four-helix structure, raising the possibility of designing comparably simple proteins that catalyze other reactions in live organisms. Contact us to opt out anytime. Volume 96 Issue 4 p. Protein designed from scratch is efficient enough to perform essential biological function in cells.
By Stu Borman. Syn-F4 catalyzes the conversion of ferric enterobactin to monomer, dimer, and trimer products, just as the native enzyme ferric enterobactin esterase does.
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Der neue Herold ist da! Modelle Anatomische Modelle Somso-Modelle. Lehmanns Verlag. Enzyme Engineering eBook Volume 4.
Enzyme Engineering | SpringerLink
The unique catalytic properties of enzymes and the numerous techniques for immobilization of enzymes and cells continue to maintain a high degree of practical and scientific interest in this area called Enzyme Engineering. Europe was chosen as the site primarily to en- able greater participation by investigators from that continent.
Germany as the cosponsor for this fourth conference. The success of the conference also was due in large part to the generous financial support, especially by the government of the Federal Republic of Germany, as well as by European enzyme and chemical companies.