Selection, characterization, and CDR shuffling of naive llama single-domain antibodies selected against auxin and their cross-reactivity with auxinic herbicides from four chemical families.

Indoleacetic acid (IAA)-binding single-domain antibodies (sdAbs) were isolated from a naive phage-display library constructed from the heavy chain antibody repertoire of a Ilama. The highest-affinity sdAb isolated (CSF2A) had a K(D) of 5-20 microM for two IAA-protein conjugates and a K(D) of 20 microM for free IAA. This sdAb also bound to a synthetic auxin analogue, 1-naphthaleneacetic acid (NAA), and to six auxinic herbicides (K(D) values of 0.

Affinity maturation of a V(H)H by mutational hotspot randomization.

V(H)Hs from naive libraries have dissociation constants (K(D)s) in the low micromolar range and thus, for most antibody applications, their intrinsic affinities need to be improved significantly. Non-targeted in vitro affinity maturation approaches based on indiscriminate randomization of complementarity-determining region (CDR) residues or random mutagenesis of conventional antibody variable domains have been shown to improve the affinity of recombinant antibodies by 450- to over 6000-fold. A different, targeted approach based on selective randomization of CDR codons containing AGY/RGYW nucleotide mutational hotspots i.

Selection of hapten-specific single-domain antibodies from a non-immunized llama ribosome display library.

Picloram-specific variable fragments (V(HH)s) of heavy chain antibodies (HCAbs) were selected from a nai;ve-llama library using ribosome display technology. A cDNA library of V(HH)s was constructed from lymphocytes of a non-immunized llama and engineered to allow in vitro transcription and translation. With no stop codons present on the transcripts, trimeric complexes of ribosomes, mRNAs and nascent peptides were produced for affinity selection, i.

Emerging trends in the synthesis and improvement of hapten-specific recombinant antibodies.

A key requirement for successful immunotherapeutic and immunodiagnostic applications is the availability of antibodies with high affinity and specificity. In the past, polyclonal antibodies from hyperimmunized animals or monoclonal antibodies from hybridoma cell lines were used extensively and profitably in medicine and immunotechnology. Antibody-based diagnostics, such as immunoassays, are also widely accepted because of their high sensitivity and ease of use as compared to conventional chromatographic techniques.

Green fluorescent protein-labeled recombinant fluobody for detecting the picloram herbicide.

A green fluorescent protein-labeled fluobody was designed to develop a simple immunoassay method for detecting picloram herbicide in an environmental sample. The gfp gene was successfully inserted into the pSJF2 vector harboring the picloram-specific antibody fragment to yield pSJF2GFP. Picloram spiking in an environmental river sample could be indirectly detected by observing the fluorescence intensity value of the gfp-fluobody, exhibiting specific sensitivity to free picloram with an IC50 value of 50 ppb.