Distinct genetic code expansion strategies for selenocysteine and pyrrolysine are reflected in different aminoacyl-tRNA formation systems.
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Selenocysteine, pyrrolysine, and the unique energy metabolism of methanogenic archaeaNon-Standard Genetic Codes Define New Concepts for Protein EngineeringC-terminal domain of archaeal O-phosphoseryl-tRNA kinase displays large-scale motion to bind the 7-bp D-stem of archaeal tRNASecAn ancient family of SelB elongation factor-like proteins with a broad but disjunct distribution across archaeaFrozen Accident Pushing 50: Stereochemistry, Expansion, and Chance in the Evolution of the Genetic Code.A tRNA-dependent cysteine biosynthesis enzyme recognizes the selenocysteine-specific tRNA in Escherichia coliUGA is an additional glycine codon in uncultured SR1 bacteria from the human microbiota.Polyspecific pyrrolysyl-tRNA synthetases from directed evolutionNonsense and sense suppression abilities of original and derivative Methanosarcina mazei pyrrolysyl-tRNA synthetase-tRNA(Pyl) pairs in the Escherichia coli BL21(DE3) cell strainStructure of the Pseudomonas aeruginosa transamidosome reveals unique aspects of bacterial tRNA-dependent asparagine biosynthesis.Computational identification of the selenocysteine tRNA (tRNASec) in genomes.Human tRNA(Sec) associates with HeLa membranes, cell lipid liposomes, and synthetic lipid bilayers.Genetic code flexibility in microorganisms: novel mechanisms and impact on physiology.Pyrrolysyl-tRNA synthetase variants reveal ancestral aminoacylation functionPyrrolysyl-tRNA synthetase, an aminoacyl-tRNA synthetase for genetic code expansion.Recoding the genetic code with selenocysteine.Human SepSecS or SLA/LP: selenocysteine formation and autoimmune hepatitis.In vivo incorporation of multiple noncanonical amino acids into proteins.Specialization from synthesis: how ribosome diversity can customize protein function.Biocatalysis with Unnatural Amino Acids: Enzymology Meets Xenobiology.Evolving tRNA(Sec) for efficient canonical incorporation of selenocysteine.Unique characteristics of the pyrrolysine system in the 7th order of methanogens: implications for the evolution of a genetic code expansion cassette.D-Ornithine coopts pyrrolysine biosynthesis to make and insert pyrroline-carboxy-lysine.Insights into substrate promiscuity of human seryl-tRNA synthetase.Evolution of the genetic code by incorporation of amino acids that improved or changed protein function.
P2860
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P2860
Distinct genetic code expansion strategies for selenocysteine and pyrrolysine are reflected in different aminoacyl-tRNA formation systems.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on January 2010
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Distinct genetic code expansio ...... noacyl-tRNA formation systems.
@en
Distinct genetic code expansio ...... noacyl-tRNA formation systems.
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type
label
Distinct genetic code expansio ...... noacyl-tRNA formation systems.
@en
Distinct genetic code expansio ...... noacyl-tRNA formation systems.
@nl
prefLabel
Distinct genetic code expansio ...... noacyl-tRNA formation systems.
@en
Distinct genetic code expansio ...... noacyl-tRNA formation systems.
@nl
P2093
P2860
P1433
P1476
Distinct genetic code expansio ...... inoacyl-tRNA formation systems
@en
P2093
Alex Ambrogelly
Dieter Söll
Patrick O'Donoghue
Sarath Gundllapalli
Sotiria Palioura
P2860
P304
P356
10.1016/J.FEBSLET.2009.11.005
P407
P577
2010-01-01T00:00:00Z