The use of mRNA display to select high-affinity protein-binding peptides

Abstract: We report the use of ''mRNA display,'' an in vitro selection technique, to identify peptide aptamers to a protein target. mRNA display allows for the preparation of polypeptide libraries with far greater complexity than is possible with phage display. Starting with a library of Ϸ10 13 random peptides, 20 different aptamers to streptavidin were obtained, with dissociation constants as low as 5 nM. These aptamers function without the aid of disulfide bridges or engineered scaffolds, yet possess affinities compar… Show more

“…First, further developments are needed in the re-targeting of these selfish genes to novel host sequences, though important progress has been made, both by design and by selection (Segal et al 1999;Guo et al 2000;Buchholz & Stewart 2001;Wilson et al 2001;Chevalier et al 2002;Santoro & Schultz 2002;Seligman et al 2002;Takahashi & Fujiwara 2002). Second, it must be demonstrated that these elements can be made to work in the prospective target species: insects, for example, are natural hosts only for the LINE-like elements.…”

Site-specific selfish genes as tools for the control and genetic engineering of natural populations

“…First, further developments are needed in the re-targeting of these selfish genes to novel host sequences, though important progress has been made, both by design and by selection (Segal et al 1999;Guo et al 2000;Buchholz & Stewart 2001;Wilson et al 2001;Chevalier et al 2002;Santoro & Schultz 2002;Seligman et al 2002;Takahashi & Fujiwara 2002). Second, it must be demonstrated that these elements can be made to work in the prospective target species: insects, for example, are natural hosts only for the LINE-like elements.…”

Site-specific selfish genes as tools for the control and genetic engineering of natural populations

“…To date, display techniques employing such principles as phage display [7,8], ribosome display [9,10], yeast display [11], covalent display [12], mRNA display [13,14], and other conceptually analogous methodologies [15,16] profoundly impact the way novel drugs are discovered, yielding new and more efficacious classes of therapeutic agents (e.g., antibody drug conjugates) [17,18]. DNA-encoded library technology aims to extend the realm and the potential of these display approaches to the en masse interrogation of small synthetic organic molecules.…”

A Handbook for DNA‐Encoded Chemistry

“…Each streptavidin monomer binds one biotin molecule with femtomolar affinity, one of the strongest non-covalent interactions observed in nature [8]. Over the past 15 years several groups have developed peptide binders to the tetrameric streptavidin protein [9][10][11][12][13] and a variety of protein engineering approaches have been applied to tailor affinity for specific applications [14][15][16]. This provides a simple and clean system for protein purification as a streptavidin binding peptide can be selectively eluted from a streptavidin affinity column using appropriate concentrations of biotin.…”

“…Consequently, several groups have set out to find higher affinity alternatives to the Strep-tags [9,13]. Using a mRNA display library,…”

“…Wilson and coworkers, for example, have identified a 38 amino acid long peptide (streptavidin-binding peptide, SBP), which binds with nanomolar affinity [13].…”

Optimisation of a multivalent Strep tag for protein detection