Touriya Atarhouch scite author profile

Random association of VL and VH repertoires contributes considerably to antibody diversity. The diversity and the affinity are then increased by hypermutation in B cells located in germinal centres. Except in the case of 'heavy chain' disease, naturally occurring heavy-chain antibodies have not been described, although antigen binding has been demonstrated for separated heavy chains or cloned VH domains. Here we investigate the presence of considerable amounts of IgG-like material of M(r) 100K in the serum of the camel (Camelus dromedarius). These molecules are composed of heavy-chain dimers and are devoid of light chains, but nevertheless have an extensive antigen-binding repertoire, a finding that calls into question the role of light chains in the camel. Camel heavy-chain IgGs lack CH1, which in one IgG class might be structurally replaced by an extended hinge. Heavy-chain IgGs are a feature of all camelids. These findings open new perspectives in the engineering of antibodies.

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Sequence and structure of V_H domain from naturally occurring camel heavy chain immunoglobulins lacking light chains

Muyldermans

Atarhouch

Saldanha

et al. 1994

Protein Eng Des Sel

438

330

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We cloned 17 different PCR fragments encoding VH genes of camel (Camelus dromedarius). These clones were derived from the camel heavy chain immunoglobulins lacking the light chain counterpart of normal immunoglobulins. Insight into the camel VH sequences and structure may help the development of single domain antibodies. The most remarkable difference in the camel VH, consistent with the absence of the VL interaction, is the substitution of the conserved Leu45 by an Arg or Cys. Another noteworthy substitution is the Leu11 to Ser. This amino acid normally interacts with the CH1 domain, a domain missing in the camel heavy chain immunoglobulins. The nature of these substitutions agrees with the increased solubility behavior of an isolated camel VH domain. The VH domains of the camels are also characterized by a long CDR3, possibly compensating for the absence of the VL contacts with the antigen. The CDR3 lacks the salt bridge between Arg94 and Asp101. However, the frequent occurrence of additional Cys residues in both the CDR1 and CDR3 might lead to the formation of a second internal disulfide bridge, thereby stabilizing the CDR structure as in the DAW antibody. Within CDRs of the camel VH domains we observe a broad size distribution and a different amino acid pattern compared with the mouse or human VH. Therefore the camel hypervariable regions might adopt structures which differ substantially from the known canonical structures, thereby increasing the repertoire of the camel antigen binding sites within a VH.

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Signature of an early genetic bottleneck in a population of Moroccan sardines (Sardina pilchardus)

Atarhouch

Rüber

González

et al. 2006

Molecular Phylogenetics and Evolution

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Formation of polymeric pigments in the presence of bacteria and comparison with chemical oxidative coupling—II. Catabolism of tyrosine and hydroxyphenylacetic acid by Alcaligenes eutrophus CH34 and mutants

David

Daro

Szalai

et al. 1996

European Polymer Journal

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