Cognizance of Molecular Methods for the Generation of Mutagenic Phage Display Antibody Libraries for Affinity Maturation

Lim, Chia Chiu; Choong, Yee Siew; Lim, Theam Soon

doi:10.3390/ijms20081861

Cited by 31 publications

(17 citation statements)

References 269 publications

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“…This experiment is a proof-of-concept that this small library contains antigen-binding sequences that can be starting points for affinity maturation to identify strong binders. Though not explicitly designed to minimize poly-reactive nanobody sequences, training on a naïve llama repertoire, which presumably contains a moderate proportion of poly-reactive sequences [81][82][83][84][85][86][87] , the designed library shows similar levels of poly-reactivity to the synthetic library, which had been designed according to a small set of highly specific nanobodies (Supplementary Fig. 11).…”

Section: An Autoregressive Generative Model Of Biological Sequencesmentioning

confidence: 99%

Protein design and variant prediction using autoregressive generative models

et al. 2021

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The ability to design functional sequences and predict effects of variation is central to protein engineering and biotherapeutics. State-of-art computational methods rely on models that leverage evolutionary information but are inadequate for important applications where multiple sequence alignments are not robust. Such applications include the prediction of variant effects of indels, disordered proteins, and the design of proteins such as antibodies due to the highly variable complementarity determining regions. We introduce a deep generative model adapted from natural language processing for prediction and design of diverse functional sequences without the need for alignments. The model performs state-of-art prediction of missense and indel effects and we successfully design and test a diverse 105-nanobody library that shows better expression than a 1000-fold larger synthetic library. Our results demonstrate the power of the alignment-free autoregressive model in generalizing to regions of sequence space traditionally considered beyond the reach of prediction and design.

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Section: An Autoregressive Generative Model Of Biological Sequencesmentioning

confidence: 99%

Protein design and variant prediction using autoregressive generative models

et al. 2021

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“…For phage display, engineered single chain fragment variable (scFv) antibodies are a preferred format due to the reduced size, which makes expression and production easier. Affinity maturation of such scFvs is feasible by various methods, as described by Lim et al in this issue, but may require substantial work before Abs with the desired properties are obtained [114].…”

Section: Recombinant Antibodiesmentioning

confidence: 99%

Peptides, Antibodies, Peptide Antibodies and More

Trier

Hansen

Houen

2019

IJMS

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The applications of peptides and antibodies to multiple targets have emerged as powerful tools in research, diagnostics, vaccine development, and therapeutics. Antibodies are unique since they, in theory, can be directed to any desired target, which illustrates their versatile nature and broad spectrum of use as illustrated by numerous applications of peptide antibodies. In recent years, due to the inherent limitations such as size and physical properties of antibodies, it has been attempted to generate new molecular compounds with equally high specificity and affinity, albeit with relatively low success. Based on this, peptides, antibodies, and peptide antibodies have established their importance and remain crucial reagents in molecular biology.

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“…The "humanness" of the repertoire was validated through sequencing of the mouse BCR repertoire (114). Sequencing techniques have been used to characterize phage display libraries, to monitor their diversity and hence evaluate their capability of isolating antibodies that bind to different antigens (115). Screening libraries can also be designed using BCR repertoire data-Zhai et al (116) and Prassler et al (117) have shown how this is possible, by reproducing the observed amino acid usages at each sequence position.…”

Section: Biological Insights From Antibody Repertoire Datamentioning

confidence: 99%

How repertoire data are changing antibody science

Marks

Deane

2020

Journal of Biological Chemistry

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Antibodies are vital proteins of the immune system that recognize potentially harmful molecules and initiate their removal. Mammals can efficiently create vast numbers of antibodies with different sequences capable of binding to any antigen with high affinity and specificity. Because they can be developed to bind to many disease agents, antibodies can be used as therapeutics. In an organism, after antigen exposure, antibodies specific to that antigen are enriched through clonal selection, expansion, and somatic hypermutation. The antibodies present in an organism therefore report on its immune status, describe its innate ability to deal with harmful substances, and reveal how it has previously responded. Next-generation sequencing technologies are being increasingly used to query the antibody, or B-cell receptor (BCR), sequence repertoire, and the amount of BCR data in public repositories is growing. The Observed Antibody Space database, for example, currently contains over a billion sequences from 68 different studies. Repertoires are available that represent both the naive state (i.e. antigen-inexperienced) and that after immunization. This wealth of data has created opportunities to learn more about our immune system. In this review, we discuss the many ways in which BCR repertoire data have been or could be exploited. We highlight its utility for providing insights into how the naive immune repertoire is generated and how it responds to antigens. We also consider how structural information can be used to enhance these data and may lead to more accurate depictions of the sequence space and to applications in the discovery of new therapeutics.

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Cognizance of Molecular Methods for the Generation of Mutagenic Phage Display Antibody Libraries for Affinity Maturation

Cited by 31 publications

References 269 publications

Protein design and variant prediction using autoregressive generative models

Protein design and variant prediction using autoregressive generative models

Peptides, Antibodies, Peptide Antibodies and More

How repertoire data are changing antibody science

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