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Superglue from bacteria: unbreakable bridges for protein nanotechnologyNature's recipe for splitting inteinsProgrammable polyproteams built using twin peptide supergluesDesign of a Split Intein with Exceptional Protein Splicing ActivityApplication of the protein semisynthesis strategy to the generation of modified chromatinCharacterization of the Polycomb-Group Mark H3K27me3 in Unicellular Algae.Enigmatic distribution, evolution, and function of inteinsBranching out of the intein active site in protein splicing.Histones: at the crossroads of peptide and protein chemistry.Functional advantages of dynamic protein disorder.Preparation of Semisynthetic Peptides Macrocycles Using Split Inteins.Chemical tagging and customizing of cellular chromatin states using ultrafast trans-splicing inteinsSemisynthetic protein nanoreactor for single-molecule chemistryClpB N-terminal domain plays a regulatory role in protein disaggregationIntein Clustering Suggests Functional Importance in Different Domains of Life.Chemical Methods for Encoding and Decoding of Posttranslational ModificationsProtein splicing of a recombinase intein induced by ssDNA and DNA damage.Bringing functions together with fusion enzymes--from nature's inventions to biotechnological applications.Split-inteins and their bioapplications.Recent advances in chemical functionalization of nanoparticles with biomolecules for analytical applications.A promiscuous split intein with expanded protein engineering applications.Chemical and semisynthesis of modified histones.Modular protein domains: an engineering approach toward functional biomaterials.Designing Smart Materials with Recombinant Proteins.Intein Zymogens: Conditional Assembly and Splicing of Split Inteins via Targeted Proteolysis.Backbone circularization of Bacillus subtilis family 11 xylanase increases its thermostability and its resistance against aggregation.'Traceless' tracing of proteins - high-affinity trans-splicing directed by a minimal interaction pair.A dual-intein autoprocessing domain that directs synchronized protein co-expression in both prokaryotes and eukaryotes.An Unprecedented Combination of Serine and Cysteine Nucleophiles in a Split Intein with an Atypical Split Site.Atomic mutagenesis in ion channels with engineered stoichiometryEfficient synthesis of polypeptide-α-thioester by the method combining polypeptide expression and chemical activation for the semi-synthesis of interferon-γ having oligosaccharides.Emerging Chemistry Strategies for Engineering Native Chromatin.A molecular engineering toolbox for the structural biologist.Improved Protein Splicing Using Embedded Split Inteins.Conditional Protein Splicing Switch in Hyperthermophiles through an Intein-Extein Partnership.Nanomolar affinity protein trans-splicing monitored in real-time by fluorophore-quencher pairs.Conditional Toxin Splicing Using a Split Intein System.The dynamic intein landscape of eukaryotes.Segmental isotopic labeling of HIV-1 capsid protein assemblies for solid state NMR.Site-Specific Incorporation of a Thioester Containing Amino Acid into Proteins.
P2860
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P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Inteins: Nature's Gift to Protein Chemists.
@en
Inteins: Nature's Gift to Protein Chemists.
@nl
type
label
Inteins: Nature's Gift to Protein Chemists.
@en
Inteins: Nature's Gift to Protein Chemists.
@nl
prefLabel
Inteins: Nature's Gift to Protein Chemists.
@en
Inteins: Nature's Gift to Protein Chemists.
@nl
P2860
P356
P1433
P1476
Inteins: Nature's Gift to Protein Chemists.
@en
P2093
Tom W Muir
P2860
P304
P356
10.1039/C3SC52951G
P50
P577
2014-01-01T00:00:00Z