We report on the synthesis and operation of a three-barrier, rotaxane-based, artificial molecular machine capable of sequence-specific β-homo (β<sup>3</sup>) peptide synthesis. The machine utilizes nonproteinogenic β<sup>3</sup>-amino acids, a class of amino acids not generally accepted by the ribosome, particularly consecutively. Successful operation of the machine via native chemical ligation (NCL) demonstrates that even challenging 15- and 19-membered ligation transition states are suitable for information translation using this artificial molecular machine. The peptide-bond-forming catalyst region can be removed from the transcribed peptide by peptidases, artificial and biomachines working in concert to generate a product that cannot be...
We report on an improved strategy for the preparation of artificial molecular machines that can pick...
Translation, the mRNA-templated synthesis of peptides by the ribosome, can be manipulated to incorpo...
The main source of chemical diversity in the majority of mature proteins and peptides is due to post...
We report on the synthesis and operation of a three-barrier, rotaxane-based, artificial molecular ma...
Sequence-specific synthesis is essential to life. In nature, information-rich polymers such as poly...
A ringing belt: An artificial molecular machine was invented to build up a programmable peptidic seq...
Currently, one of main challenges in drug discovery is the generation of diverse compound libraries ...
translation to the synthesis of unnatural peptides may allow the production of extremely large libr...
Due to their unique characteristics, which are not shared by canonical α-peptides, peptides that con...
By transplanting identity elements into E. coli tRNAfMet , we have engineered an orthogonal initiato...
A ribosome-inspired molecular machine for building peptides has been introduced. How does it work? F...
BACKGROUND: The application of in vitro translation to the synthesis of unnatural peptides may allow...
The ribosome, the molecular machine that translates our genetic code to build the body’s proteins, i...
The center of DNA three-way junctions, constituting a yoctoliter (10<sup>−24</sup> L) volume, is app...
Harnessing the modular architecture of non-ribosomal peptide synthetases for combinatorial biosynthe...
We report on an improved strategy for the preparation of artificial molecular machines that can pick...
Translation, the mRNA-templated synthesis of peptides by the ribosome, can be manipulated to incorpo...
The main source of chemical diversity in the majority of mature proteins and peptides is due to post...
We report on the synthesis and operation of a three-barrier, rotaxane-based, artificial molecular ma...
Sequence-specific synthesis is essential to life. In nature, information-rich polymers such as poly...
A ringing belt: An artificial molecular machine was invented to build up a programmable peptidic seq...
Currently, one of main challenges in drug discovery is the generation of diverse compound libraries ...
translation to the synthesis of unnatural peptides may allow the production of extremely large libr...
Due to their unique characteristics, which are not shared by canonical α-peptides, peptides that con...
By transplanting identity elements into E. coli tRNAfMet , we have engineered an orthogonal initiato...
A ribosome-inspired molecular machine for building peptides has been introduced. How does it work? F...
BACKGROUND: The application of in vitro translation to the synthesis of unnatural peptides may allow...
The ribosome, the molecular machine that translates our genetic code to build the body’s proteins, i...
The center of DNA three-way junctions, constituting a yoctoliter (10<sup>−24</sup> L) volume, is app...
Harnessing the modular architecture of non-ribosomal peptide synthetases for combinatorial biosynthe...
We report on an improved strategy for the preparation of artificial molecular machines that can pick...
Translation, the mRNA-templated synthesis of peptides by the ribosome, can be manipulated to incorpo...
The main source of chemical diversity in the majority of mature proteins and peptides is due to post...