J. C. Earnshaw scite author profile

To generate a stable resource from which high affinity human antibodies to any given antigen can be rapidly isolated, functional V-gene segments from 43 non-immunized human donors were used to construct a repertoire of 1.4 x 10(10) single-chain Fv (scFv) fragments displayed on the surface of phage. Fragments were cloned in a phagemid vector, enabling both phage displayed and soluble scFv to be produced without subcloning. A hexahistidine tag has been incorporated to allow rapid purification of scFv by nickel chelate chromatography. This library format reduces the time needed to isolate monoclonal antibody fragments to under two weeks. All of the measured binding affinities show a Kd < 10 nM and off-rates of 10(-3) to 10(-4) s-1, properties usually associated with antibodies from a secondary immune response. The best of these scFvs, an anti-fluorescein antibody (0.3 nM) and an antibody directed against the hapten DTPA (0.8 nM), are the first antibodies with subnanomolar binding affinities to be isolated from a naive library. Antibodies to doxorubicin, which is both immunosuppressive and toxic, as well as a high affinity and high specificity antibody to the steroid hormone oestradiol have been isolated. This work shows that conventional hybridoma technology may be superseded by large phage libraries that are proving to be a stable and reliable source of specific, high affinity human monoclonal antibodies.

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Formation of meso-structures in colloidal monolayers

Ghezzi

Earnshaw

1997

J. Phys.: Condens. Matter

104

128

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The spontaneous formation of loosely bound ordered aggregates has been observed in colloidal monolayers trapped at the air/water interface. The distance between particles in these meso-structures is of the order of the particle radius, implying that the colloidal interaction potential has a minimum at such distances. This is inconsistent with accepted theory. Possible connections with recent suggestions of hitherto unexpected attractive contributions to the pairwise interaction potential for bulk colloidal systems are discussed.

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Surface-induced phase transition in normal alkane fluids

1992

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Pattern Formation in Colloidal Monolayers at the Air–Water Interface

Ghezzi

Earnshaw

Finnis

et al. 2001

Journal of Colloid and Interface Science

111

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Surface Light-Scattering Studies of Surfactant Solutions

Earnshaw¹,

Mccoo²

1995

Langmuir

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J. C. Earnshaw

Human Antibodies with Sub-nanomolar Affinities Isolated from a Large Non-immunized Phage Display Library

Formation of meso-structures in colloidal monolayers

Surface-induced phase transition in normal alkane fluids

Pattern Formation in Colloidal Monolayers at the Air–Water Interface

Surface Light-Scattering Studies of Surfactant Solutions

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