In the post-genome era, the mouse will have a major role as a model system for functional genome analysis. This requires a large number of mutants similar to the collections available from other model organisms such as Drosophila melanogaster and Caenorhabditis elegans. Here we report on a systematic, genome-wide, mutagenesis screen in mice. As part of the German Human Genome Project, we have undertaken a large-scale ENU-mutagenesis screen for dominant mutations and a limited screen for recessive mutations. In screening over 14,000 mice for a large number of clinically relevant parameters, we recovered 182 mouse mutants for a variety of phenotypes. In addition, 247 variant mouse mutants are currently in genetic confirmation testing and will result in additional new mutant lines. This mutagenesis screen, along with the screen described in the accompanying paper, leads to a significant increase in the number of mouse models available to the scientific community. Our mutant lines are freely accessible to non-commercial users (for information, see http://www.gsf.de/ieg/groups/enu-mouse.html).
The central regions of the kappa locus, the so-called A regions, have been fully characterized on cosmid and phage lambda clones. The regions, which are parts of the C kappa-proximal and -distal copies of the locus and are, therefore, called Ap and Ad regions, comprise about 140 kb each and contain together 30 V kappa genes and pseudogenes. The A regions have been linked on their 5' sides to the O regions and on their 3' sides to the L regions. Chromosomal walking has eliminated a previous gap in the Ap region. Detailed restriction maps of the Ap and Ad regions and the sequences of 9 V kappa genes are reported. Four events, which have occurred in evolution probably after the duplication of the A region, were identified: the insertion of an Alu element in Ad; the insertion of part of a LINE element in Ap; the deletion of a 17.5-kb fragment including one V kappa gene from Ap; the sequence divergence of duplicated V kappa gene regions which ranges among the five pairs studied here from 0 to 14 bp per kb and converted two genes to pseudogenes while their duplicates stayed functional. An analysis of the A regions of the lymphoid cell lines RPMI 6140 and GM607 confirmed the previous finding that the V kappa-J kappa rearrangement in these cell lines had occurred by deletion and inversion mechanisms, respectively. Thus, the structural data contribute to the understanding of the evolution and the functioning of the A regions of the kappa locus.
Two large regions of the human immunoglobulin kappa locus, the so-called O regions, have been characterized on cosmid and phage lambda clones. The two regions are very similar but not identical duplicates belonging to the C kappa proximal (p) and the distal (d) copies of the kappa locus. The Op and Od regions comprise contigs of 90 and 120 kb, respectively, and contain 20 V kappa genes and pseudogenes which have been sequenced. Three pairs of V kappa genes were found to be practically identical in the duplicates while allotypic differences, at least for two of the genes, are considerable. The similarities between the duplicate genes may be related to the fact that the two copies of the kappa locus are arranged in a palindrome-like fashion with the 5' sides of the O regions pointing towards each other (C kappa J kappa B Lp Ap Op-Od Ad Ld). This may have contributed to equalizing the sequences. Beyond Op and Od no further V kappa genes were found within about 80 kb. Instead, repetitive DNA sequences have been localized there, the structures of which suggest that they may have been involved in the evolution of the V kappa gene-containing regions. The V kappa pseudogene containing W regions, that had been transposed in evolution from the short to the long arm of chromosome 2 by a pericentric inversion, may have been derived from the O regions according to structural homologies between defined sections of the O and W regions.
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