Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
about
Pyrrolysyl-tRNA synthetase: an ordinary enzyme but an outstanding genetic code expansion toolCurrent chemical biology approaches to interrogate protein methyltransferasesFrom Chemical Mutagenesis to Post-Expression Mutagenesis: A 50 Year OdysseyChromatin regulation at the frontier of synthetic biologyA chemical biology route to site-specific authentic protein modificationsChemical and biological tools for the preparation of modified histone proteinsApplication of the protein semisynthesis strategy to the generation of modified chromatinAt the Interface of Chemical and Biological Synthesis: An Expanded Genetic Code.Reprogramming the genetic code.Genetically encoded libraries of nonstandard peptides.Towards understanding methyllysine readout.Histones: at the crossroads of peptide and protein chemistry.Traceless semisynthesis of a set of histone 3 species bearing specific lysine methylation marks.The pyrrolysine translational machinery as a genetic-code expansion toolChemical Methods for Encoding and Decoding of Posttranslational ModificationsSite-specific incorporation of ε-N-crotonyllysine into histonesPyrrolysyl-tRNA synthetase, an aminoacyl-tRNA synthetase for genetic code expansion.Spreading chromatin into chemical biology.Reprogramming the genetic code: from triplet to quadruplet codes.Rewiring translation - Genetic code expansion and its applications.Synthesis of post-translationally modified proteins.Biological applications of expanded genetic codes.Expanded genetic code technologies for incorporating modified lysine at multiple sites.Expanding the genetic code of an animalDesigning logical codon reassignment - Expanding the chemistry in biology.Genetic Incorporation of ε-N-2-Hydroxyisobutyryl-lysine into Recombinant Histones.A Genetically Encoded Allysine for the Synthesis of Proteins with Site-Specific Lysine Dimethylation.A molecular engineering toolbox for the structural biologist.Chemical biology approaches for studying posttranslational modifications.Pyrrolysine Amber Stop-Codon Suppression: Development and Applications.Proteins with Site-Specific Lysine Methylation.Synthesis of ε-N-propionyl-, ε-N-butyryl-, and ε-N-crotonyl-lysine containing histone H3 using the pyrrolysine systemConversion of Cysteine into Dehydroalanine Enables Access to Synthetic Histones Bearing Diverse Post-Translational ModificationsMultiple Site-Specific Installations ofNε-Monomethyl-L-Lysine into Histone Proteins by Cell-Based and Cell-Free Protein Synthesis
P2860
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P2860
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@en
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@nl
type
label
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@en
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@nl
prefLabel
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@en
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@nl
P2093
P1476
Genetically directing ɛ-N, N-dimethyl-L-lysine in recombinant histones.
@en
P2093
Duy P Nguyen
Jason W Chin
Maria M Garcia Alai
P304
P356
10.1016/J.CHEMBIOL.2010.07.013
P577
2010-10-01T00:00:00Z