Mouse kappa light-chain recombination signal sequences mediate recombination more frequently than do those of lambda light chain.

Immunoglobulin and T-cell receptor genes are somatically rearranged by site-specific recombination. Recombination signal sequences (RSS) have been identified as the major targeting element of this process. Recent reports demonstrate that differences in RSS affect the frequency of recombination, suggesting a role for RSS in the development of the B-cell repertoire. Examination of mouse light-chain RSS indicates that kappa light-chain RSS consistently show a greater degree of similarity to a consensus sequence than do those of lambda light chain. To determine whether this difference in natural RSS could affect the patterns of light-chain gene rearrangement and expression, we have constructed recombination substrates containing both a typical mouse kappa RSS pair and a typical mouse lambda RSS pair. Experiments using these substrates demonstrate that the kappa RSS pair mediates recombination at a vastly higher frequency than does the lambda RSS pair. This result argues that RSS differences may contribute significantly to the patterns of mouse immunoglobulin light-chain rearrangement, ultimately resulting in a high proportion of kappa light chain relative to lambda.