Site-specific PEGylation of native disulfide bonds in therapeutic proteins
NATURE CHEMICAL BIOLOGY(2006)
摘要
Native disulfide bonds in therapeutic proteins are crucial for tertiary structure and biological activity and are therefore considered unsuitable for chemical modification(1,2). We show that native disulfides in human interferon alpha-2b and in a fragment of an antibody to CD4(+) can be modified by site-specific bisalkylation of the two cysteine sulfur atoms to form a three-carbon PEGylated bridge. The yield of PEGylated protein is high, and tertiary structure and biological activity are retained.
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关键词
cell line,disulfide bond,ecology,dna,materials science,astronomy,computational biology,nanotechnology,evolutionary biology,marine biology,genomics,nature,transcriptomics,cell signalling,earth science,alkylation,functional genomics,structural biology,systems biology,cancer,evolution,molecular biology,biochemistry,drug discovery,developmental biology,genetics,molecular structure,pharmacology,bioinformatics,signal transduction,biology,geophysics,proteomics,binding sites,environmental science,palaeobiology,structure activity relationship,metabolomics,cell cycle,quantum physics,immunology,medical research,medicine,recombinant proteins,climate change,neuroscience,tertiary,astrophysics,physics,biotechnology,rna,protein structure,neurobiology
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