[HTML][HTML] Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish, B Shah… - Nature …, 2023 - nature.com
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-l-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish… - Nature …, 2023 - escholarship.org
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-L-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
[HTML][HTML] Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish… - Nature …, 2023 - ncbi.nlm.nih.gov
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-l-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish… - Nature …, 2023 - ui.adsabs.harvard.edu
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-L-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish, B Shah… - paper.sciencenet.cn
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-L-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe… - Nature …, 2023 - pubmed.ncbi.nlm.nih.gov
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-L-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish, B Shah… - Nature Chemistry, 2023 - par.nsf.gov
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-l-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non--amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish, B Shah… - Nature Chemistry, 2023 - osti.gov
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-L-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo.
R Fricke, CV Swenson, LT Roe, NX Hamlish… - Nature …, 2023 - europepmc.org
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-l-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
Expanding the substrate scope of pyrrolysyl-transfer RNA synthetase enzymes to include non-α-amino acids in vitro and in vivo
R Fricke, CV Swenson, LT Roe, NX Hamlish, B Shah… - paper.sciencenet.cn
The absence of orthogonal aminoacyl-transfer RNA (tRNA) synthetases that accept non-L-α-
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …
amino acids is a primary bottleneck hindering the in vivo translation of sequence-defined …