Ig gene rearrangements could generate V(H)-D-J(H) joining sequences that interfere with the correct folding of a mu-chain, and thus, its capability to pair with IgL chains. Surrogate light (SL) chain might be the ideal molecule to test the capacity of a mu-chain to pair with a L chain early in development, in that only pre-B cells that assemble a membrane mu-SL complex would be permitted to expand and further differentiate. We have previously identified two SL chain nonpairing V(H)81X-mu-chains with distinct V(H)-D-J(H) joining regions. Here, we show that one of these V(H)81X-mu-chains does not rescue B cell development in J(H) knock-out mice, because flow cytometric analysis of bone marrow cells from V(H)81X-mu transgenic J(H) knock-out mice revealed normal numbers of pro-B cells, but essentially no pre-B and surface IgM+ B cells. Immunoprecipitation analysis of transfected pre-B and hybridoma lines revealed that the same mu-chain fails to pair not only with SL chain but also with four distinct kappa L chains. These findings demonstrate that early pre-B cells are selected for maturation on the basis of the structure of a mu-chain, in particular its V(H)-D-J(H) joining or CDR3 sequence, and that one mechanism for this selection is the capacity of a mu-chain to assemble with SL chain. Therefore, we propose a new function of SL chain in early B cell development: SL chain is part of a quality control mechanism that tests a mu-chain for its ability to pair with conventional L chains.