Add to ORKGSpecies of the Camelidae family possess a class of antibodies consisting only of heavy chains. The variable domains of these heavy chain antibodies (VHHs) can be used as process aids, as diagnostic tool or in a wide variety of therapeutic applications, such as prevention of HIV infection. The maturation of antibodies processes through a series of steps all aimed at optimizing the functionality. In this paper we describe new Lama glama V gene segments and discuss how the maturation of Camelid IgV and IgD VHHs differs from what is known for human and mouse VHs. Knowledge of this maturation pathway will eventually assist the selection and design of better VHHs against HIV
A variable domain of heavy chain antibody (VHH) has different binding properties than conventional a...
IntroductionThe evolution of adaptive immunity in Camelidae resulted in the concurrent expression of...
IntroductionThe evolution of adaptive immunity in Camelidae resulted in the concurrent expression of...
Species of the Camelidae family possess a class of antibodies consisting only of heavy chains. The v...
Members of the Camelidae family produce immunoglobulins devoid of light chains. We have characterize...
AbstractCamel antibodies have been widely investigated, but work has focused upon the unique heavy c...
Antibodies and antibody fragments are essential tools in basic research, diagnostics and therapy. Co...
In addition to conventional antibodies (Abs), camelids possess Abs consisting of only heavy chains. ...
Variable domains of camelid heavy chain antibodies (VHHs) are the smallest available antigen binding...
Functional heavy-chain gamma-immunoglobulins lacking light chains occur naturally in Camelidae. We n...
All camelids and dromedaries in particular have unique antibodies circulating in their blood. Unlike...
Three classes of IgG have been described for camelids. IgG1 has a conventional four-chain structure,...
Camelids produce IgG isotypes that do not conform to the rules governing conventional antibody struc...
Compared to classical antibodies, camel heavy chain antibodies (HCAbs) are smaller in size due to la...
Variable domains of camelid heavy chain antibodies (VHHs) are the smallest available antigen binding...
A variable domain of heavy chain antibody (VHH) has different binding properties than conventional a...
IntroductionThe evolution of adaptive immunity in Camelidae resulted in the concurrent expression of...
IntroductionThe evolution of adaptive immunity in Camelidae resulted in the concurrent expression of...
Species of the Camelidae family possess a class of antibodies consisting only of heavy chains. The v...
Members of the Camelidae family produce immunoglobulins devoid of light chains. We have characterize...
AbstractCamel antibodies have been widely investigated, but work has focused upon the unique heavy c...
Antibodies and antibody fragments are essential tools in basic research, diagnostics and therapy. Co...
In addition to conventional antibodies (Abs), camelids possess Abs consisting of only heavy chains. ...
Variable domains of camelid heavy chain antibodies (VHHs) are the smallest available antigen binding...
Functional heavy-chain gamma-immunoglobulins lacking light chains occur naturally in Camelidae. We n...
All camelids and dromedaries in particular have unique antibodies circulating in their blood. Unlike...
Three classes of IgG have been described for camelids. IgG1 has a conventional four-chain structure,...
Camelids produce IgG isotypes that do not conform to the rules governing conventional antibody struc...
Compared to classical antibodies, camel heavy chain antibodies (HCAbs) are smaller in size due to la...
Variable domains of camelid heavy chain antibodies (VHHs) are the smallest available antigen binding...
A variable domain of heavy chain antibody (VHH) has different binding properties than conventional a...
IntroductionThe evolution of adaptive immunity in Camelidae resulted in the concurrent expression of...
IntroductionThe evolution of adaptive immunity in Camelidae resulted in the concurrent expression of...