Journal
/
Biochimie
/
Creating Highly Specific Chemically Induced Protein Dimerization Systems by Stepwise Phage Selection of a Combinatorial Single-Domain Antibody Library
Journal JoVE
Biochimie
Un abonnement à JoVE est nécessaire pour voir ce contenu.  Connectez-vous ou commencez votre essai gratuit.
Journal JoVE Biochimie
Creating Highly Specific Chemically Induced Protein Dimerization Systems by Stepwise Phage Selection of a Combinatorial Single-Domain Antibody Library

Creating Highly Specific Chemically Induced Protein Dimerization Systems by Stepwise Phage Selection of a Combinatorial Single-Domain Antibody Library

DOI:
10.3791/60738-v

10:17 min

January 14, 2020

, , , ,
1Department of Biochemistry and Institute for Protein Design,University of Washington

Chapitres

  • 00:04Titre
  • 00:47TG1 Cell and Negative Selection Bead Preparation
  • 02:15Positive Selection Bead Preparation
  • 03:33Phage-displayed Nanobody Elution and Input/Output Titrations and Infection
  • 05:15Single Clone Isolation
  • 06:22Anchor Binder Validation
  • 08:13Results: Representative Anchor and Dimerization Binder Characterization
  • 09:39Conclusion

Summary

Traduction automatique

Traduction automatique

Creating chemically induced protein dimerization systems with desired affinity and specificity for any given small molecule ligand would have many biological sensing and actuation applications. Here, we describe an efficient, generalizable method for de novo engineering of chemically induced dimerization systems via the stepwise selection of a phage-displayed combinatorial single-domain antibody library.

Tags

Keywords: Protein DimerizationBiosensorPhage DisplaySingle-domain AntibodySmall MoleculeCell BehaviorCell Metabolite MonitoringStreptavidin BeadsBiotinylated LigandNegative And Positive Selection

Article

Embed

AJOUTER À LA PLAYLIST

Usage Statistics

Vidéos Connexes

check_url/fr/60738?article_type=v

Bacterial Inner-membrane Display for Screening a Library of Antibody Fragments
check_url/fr/60738?article_type=v

Efficient and Site-specific Antibody Labeling by Strain-promoted Azide-alkyne Cycloaddition
check_url/fr/60738?article_type=v

Measuring Protein Binding to F-actin by Co-sedimentation
check_url/fr/60738?article_type=v

Detection and Visualization of DNA Damage-induced Protein Complexes in Suspension Cell Cultures Using the Proximity Ligation Assay
check_url/fr/60738?article_type=v

Protein Film Infrared Electrochemistry Demonstrated for Study of H2 Oxidation by a [NiFe] Hydrogenase
check_url/fr/60738?article_type=v

Highly Sensitive and Quantitative Detection of Proteins and Their Isoforms by Capillary Isoelectric Focusing Method
check_url/fr/60738?article_type=v

Capturing the Interaction Kinetics of an Ion Channel Protein with Small Molecules by the Bio-layer Interferometry Assay
check_url/fr/60738?article_type=v

Immunization of Alpacas (Lama pacos) with Protein Antigens and Production of Antigen-specific Single Domain Antibodies
check_url/fr/60738?article_type=v

High Sensitivity Measurement of Transcription Factor-DNA Binding Affinities by Competitive Titration Using Fluorescence Microscopy
check_url/fr/60738?article_type=v

Analysis of Protein Folding, Transport, and Degradation in Living Cells by Radioactive Pulse Chase

Read Article