Site-specific chemical protein conjugation using genetically encoded aldehyde tags - Wikidata - awgldk - TriplyDB

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

http://www.wikidata.org/entity/Q36399831

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Methods to Design and Synthesize Antibody-Drug Conjugates (ADCs)Strategies and Advancement in Antibody-Drug Conjugate Optimization for Targeted Cancer Therapeutics Site-specific functionalization of proteins and their applications to therapeutic antibodies The Structure of Human GALNS Reveals the Molecular Basis for Mucopolysaccharidosis IV A X-ray structure of an AdoMet radical activase reveals an anaerobic solution for formylglycine posttranslational modification Substrate selectivity analyses of factor inhibiting hypoxia-inducible factor Genetically Directed Production of Recombinant, Isosteric and Nonhydrolysable Ubiquitin Conjugates Development and Evaluation of a Fluorescent Antibody-Drug Conjugate for Molecular Imaging and Targeted Therapy of Pancreatic Cancer Adapter reagents for protein site specific dye labeling Enzymatic labeling of proteins: techniques and approaches World Antibody-Drug Conjugate Summit, October 15-16, 2013, San Francisco, CA.Enabling the controlled assembly of antibody conjugates with a loading of two modules without antibody engineering In vitro and in vivo application of anti-cotinine antibody and cotinine-conjugated compounds.Aldehyde tag coupled with HIPS chemistry enables the production of ADCs conjugated site-specifically to different antibody regions with distinct in vivo efficacy and PK outcomes Sortase-mediated modification of αDEC205 affords optimization of antigen presentation and immunization against a set of viral epitopes.Computational Construction of Antibody-Drug Conjugates Using Surface Lysines as the Antibody Conjugation Site and a Non-cleavable Linker Methods to Make Homogenous Antibody Drug Conjugates.Reconstitution of Formylglycine-generating Enzyme with Copper(II) for Aldehyde Tag Conversion.Generating aldehyde-tagged antibodies with high titers and high formylglycine yields by supplementing culture media with copper(II).PRINT: A Protein Bioconjugation Method with Exquisite N-terminal Specificity.Bringing single-molecule spectroscopy to macromolecular protein complexes.Glycoprotein disease markers and single protein-omics Field Guide to Challenges and Opportunities in Antibody-Drug Conjugates for Chemists.A general method for fluorescent labeling of the N-termini of lanthipeptides and its application to visualize their cellular localization.Precision glycocalyx editing as a strategy for cancer immunotherapy.Natural and non-natural amino-acid side-chain substitutions: affinity and diffraction studies of meditope-Fab complexes.Site-specific antibody drug conjugates for cancer therapy Exterior design: strategies for redecorating the bacterial surface with small molecules.Therapeutic applications of an expanded genetic code.Formylglycine, a post-translationally generated residue with unique catalytic capabilities and biotechnology applications.Single-molecule sorting of DNA helicases.A modular approach for assembling aldehyde-tagged proteins on DNA scaffolds.Stable and Potent Selenomab-Drug Conjugates.Antibody-Drug Conjugates: Design, Formulation and Physicochemical Stability.Emerging site-specific bioconjugation strategies for radioimmunotracer development.Insights from native mass spectrometry approaches for top- and middle- level characterization of site-specific antibody-drug conjugates.Microbial transglutaminase and c-myc-tag: a strong couple for the functionalization of antibody-like protein scaffolds from discovery platforms.Quantifying the Assembly of Multicomponent Molecular Machines by Single-Molecule Total Internal Reflection Fluorescence Microscopy Chemoenzymatic Fc glycosylation via engineered aldehyde tags.Site-Specific Tandem Knoevenagel Condensation-Michael Addition To Generate Antibody-Drug Conjugates.

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P2860

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

http://www.wikidata.org/entity/Q36399831

description

2012 nî lūn-bûn

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2012年の論文

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年學術文章

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2012年學術文章

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2012年學術文章

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name

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

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Site-specific chemical protein conjugation using genetically encoded aldehyde tags

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type

label

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

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Site-specific chemical protein conjugation using genetically encoded aldehyde tags

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prefLabel

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

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Site-specific chemical protein conjugation using genetically encoded aldehyde tags

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Nature Protocols

P1476

Site-specific chemical protein conjugation using genetically encoded aldehyde tags

@en

P2093

Gregory W deHart

http://www.w3.org/2001/XMLSchema#string

Jason S Rush

http://www.w3.org/2001/XMLSchema#string

Peng Wu

http://www.w3.org/2001/XMLSchema#string

P2860

Sulfatases and sulfatase modifying factors: an exclusive and promiscuous relationship

Synthesis of heterobifunctional protein fusions using copper-free click chemistry and the aldehyde tag

Bioorthogonal chemistry: fishing for selectivity in a sea of functionality

Hydrolytic stability of hydrazones and oximes

Function and Structure of a Prokaryotic Formylglycine-generating Enzyme

Choosing an effective protein bioconjugation strategy

New aldehyde tag sequences identified by screening formylglycine generating enzymes in vitro and in vivo

Chemoenzymatic methods for site-specific protein modification.

Optimized clinical performance of growth hormone with an expanded genetic code

Molecular basis for multiple sulfatase deficiency and mechanism for formylglycine generation of the human formylglycine-generating enzyme.

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P304

1052-1067

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scholarly article

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10.1038/NPROT.2012.045

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6

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7

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Carolyn Bertozzi

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2012-05-10T00:00:00Z

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224939392

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22576105

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3498491

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