Forty different PCR clones encoding a llama variable heavy chain domain were analysed. The majority of these clones are derived from heavy-chain antibody cDNA in which the entire CH1 exon is absent. It appears from the amino acid within the V H H framework 1 and 3 that all the llama clones belong to the VH III family. However, the individual llama V H H sequences differ more substantially from each other than expected for members of the same family. Several remarkable amino acid substitutions in the framework 2 hinder the proper association of the V L . However, they lay the foundation for the secretion from the endoplasmic reticulum and good solubility behaviour of llama H 2 antibodies. The repertoire of the llama V H H s may be extensive due to the presence of a long CDR3-loop, often constrained by a disulfide bridge and the occurrence of H1 and H2 loop conformations not yet encountered in mice or human V H s. The variability plot of the amino acids in the V H H shows that the first hypervariable region coincides with the structural H1 loop in contrast to the situation found in mice and man where the CDR1 and H1 are slightly offset. We propose that the amino acids of the llama H1 loop participate actively in the antigen binding. All these observations are characteristic for the llama V H H s of the homodimeric heavy-chain H 2 antibodies, but are not maintained in the llama clones from conventional heterotetrameric H 2 L 2 immunoglobulins.