Add to ORKG(HSAS) tRNA [15] with the DNA or mRNA corresponding to the protein of interest into adherent cells. This leads to highly efficient delivery of these components and efficient nonsense suppression. We demonstrate this for both enhanced green fluorescent protein (EGFP) an
Orthogonal tRNA/aminoacyl tRNA synthetase pairs allow the incorporation of unnatural amino acids int...
Proteins in nature are synthesized from a conservative set of 20 canonical amino acids, limiting the...
Optical imaging using fluorescence is limited by fluorophore size and unsuitability for in vivo anal...
AbstractWe describe an approach to achieve unnatural amino acid incorporation into channels and rece...
We describe an approach to achieve unnatural amino acid incorporation into channels and receptors ex...
The site-specific incorporation of non-natural amino acids into proteins by nonsense suppression has...
The ability to site-specifically incorporate unnatural amino acids (UAAs) into proteins is a powerfu...
The ability to site-specifically incorporate unnatural amino acids (UAAs) into proteins is a powerfu...
The efficient, site-specific introduction of unnatural amino acids into proteins in mammalian cells ...
AbstractThe site-specific insertion of an unnatural amino acid into proteins in vivo via nonsense su...
A general approach to site-specific insertion of amino acid analogues into proteins in vivo would be...
A reporter assay was developed to detect and quantify nonsense codon suppression by chem. aminoacyla...
The introduction of unnatural amino acids with novel properties into proteins is potentially a usefu...
The genetic code of most organisms was evolved to encode 20 amino acids. Although the ability to enc...
Fluorescence can be used in optical imaging to view cell activity in vivo. Fluorescent proteins and ...
Orthogonal tRNA/aminoacyl tRNA synthetase pairs allow the incorporation of unnatural amino acids int...
Proteins in nature are synthesized from a conservative set of 20 canonical amino acids, limiting the...
Optical imaging using fluorescence is limited by fluorophore size and unsuitability for in vivo anal...
AbstractWe describe an approach to achieve unnatural amino acid incorporation into channels and rece...
We describe an approach to achieve unnatural amino acid incorporation into channels and receptors ex...
The site-specific incorporation of non-natural amino acids into proteins by nonsense suppression has...
The ability to site-specifically incorporate unnatural amino acids (UAAs) into proteins is a powerfu...
The ability to site-specifically incorporate unnatural amino acids (UAAs) into proteins is a powerfu...
The efficient, site-specific introduction of unnatural amino acids into proteins in mammalian cells ...
AbstractThe site-specific insertion of an unnatural amino acid into proteins in vivo via nonsense su...
A general approach to site-specific insertion of amino acid analogues into proteins in vivo would be...
A reporter assay was developed to detect and quantify nonsense codon suppression by chem. aminoacyla...
The introduction of unnatural amino acids with novel properties into proteins is potentially a usefu...
The genetic code of most organisms was evolved to encode 20 amino acids. Although the ability to enc...
Fluorescence can be used in optical imaging to view cell activity in vivo. Fluorescent proteins and ...
Orthogonal tRNA/aminoacyl tRNA synthetase pairs allow the incorporation of unnatural amino acids int...
Proteins in nature are synthesized from a conservative set of 20 canonical amino acids, limiting the...
Optical imaging using fluorescence is limited by fluorophore size and unsuitability for in vivo anal...