Structure of the complex between HER2 and an antibody paratope formed by side chains from tryptophan and serine.

Engineered antibody paratopes with limited sequence diversity permit assessment of the roles played by different amino acid side chains in creating the high-affinity, high-specificity interactions characteristic of antibodies. We describe a paratope raised against the human ErbB family member HER2, using a binary diversity tryptophan/serine library displayed on phage. Fab37 binds to the extracellular domain of HER2 with sub-nanomolar affinity.

The functional capacity of the natural amino acids for molecular recognition.

We tested the functional capacity of the natural amino acids for molecular recognition in a minimalist background of binary Tyr/Ser diversity. In phage-displayed synthetic antibody libraries, we replaced either Tyr or Ser with other residues. We find that Tyr is optimal for mediating contacts that contribute favourably to both affinity and specificity, but it can be replaced by Trp, which contributes favourably to affinity but is detrimental to specificity.

A solvent-exposed patch in chaperone-bound YopE is required for translocation by the type III secretion system.

Most effector proteins of bacterial type III secretion (T3S) systems require chaperone proteins for translocation into host cells. Such effectors are bound by chaperones in a conserved and characteristic manner, with the chaperone-binding (Cb) region of the effector wound around the chaperone in a highly extended conformation. This conformation has been suggested to serve as a translocation signal in promoting the association between the chaperone-effector complex and a bacterial component required for translocation.

The intrinsic contributions of tyrosine, serine, glycine and arginine to the affinity and specificity of antibodies.

Synthetic antibody libraries with restricted chemical diversity were used to explore the intrinsic contributions of four amino acids (Tyr, Ser, Gly and Arg) to the affinity and specificity of antigen recognition. There was no correlation between nonspecific binding and the content of Tyr, Ser or Gly in the antigen-binding site, and in fact, the most specific antibodies were those with the highest Tyr content. In contrast, Arg content was clearly correlated with increased nonspecific binding.

High-throughput generation of synthetic antibodies from highly functional minimalist phage-displayed libraries.

We have previously established a minimalist approach to antibody engineering by using a phage-displayed framework to support complementarity determining region (CDR) diversity restricted to a binary code of tyrosine and serine. Here, we systematically augmented the original binary library with additional levels of diversity and examined the effects. The diversity of the simplest library, in which only heavy chain CDR positions were randomized by the binary code, was expanded in a stepwise manner by adding diversity to the light chain, by diversifying non-paratope residues that may influence CDR conformations, and by adding additional chemical diversity to CDR-H3.

Three-dimensional secretion signals in chaperone-effector complexes of bacterial pathogens.

The type III secretion system (TTSS) of Gram-negative bacterial pathogens delivers effector proteins required for virulence directly into the cytosol of host cells. Delivery of many effectors depends on association with specific cognate chaperones in the bacterial cytosol. The mechanism of chaperone action is not understood.