Zobrazeno 1 - 3
of 3
pro vyhledávání: '"Tim A. Mollner"'
Autor:
Tim A. Mollner, Andrew M. Giltrap, Yibo Zeng, Yana Demyanenko, Charles Buchanan, Daniel Oehlrich, Andrew J. Baldwin, Daniel C. Anthony, Shabaz Mohammed, Benjamin G. Davis
Biomolecule environments can enhance chemistries with the potential to mediate and modulate self-modification (e.g., self-cleavage). While these enhanced modes are found in certain biomolecules (e.g., RNA ribozymes), it is more rare in proteins. Targ
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::0e9b6232f485a42bdfb42a99130ad0f3
https://ora.ox.ac.uk/objects/uuid:f90c6cce-0abc-4a69-a283-05e346c25267
https://ora.ox.ac.uk/objects/uuid:f90c6cce-0abc-4a69-a283-05e346c25267
Autor:
Lukas Lercher, Shabaz Mohammed, Tim A. Mollner, Benjamin G. Davis, Patrick G. Isenegger, Brian Josephson, Charles J. Buchanan, Daniel Oehlrich, Andrew Baldwin, Véronique Gouverneur, D. Flemming Hansen
Publikováno v:
Nature Chemical Biology
Boron is absent in proteins, yet is a micronutrient. It possesses unique bonding that could expand biological function including modes of Lewis acidity not available to typical elements of life. Here we show that post-translational Cβ–Bγ bond for
Autor:
Tim A, Mollner, Andrew M, Giltrap, Yibo, Zeng, Yana, Demyanenko, Charles, Buchanan, Daniel, Oehlrich, Andrew J, Baldwin, Daniel C, Anthony, Shabaz, Mohammed, Benjamin G, Davis
Publikováno v:
Science advances. 8(14)
Biomolecule environments can enhance chemistries with the potential to mediate and modulate self-modification (e.g., self-cleavage). While these enhanced modes are found in certain biomolecules (e.g., RNA ribozymes), it is more rare in proteins. Targ