Immunoglobulin light chain genes of the mouse are composed in germ-line DNA of four separate segments, the leader, V (variable), J (joining) and C (constant) segments. In immunocompetent cells a V and J gene segment are joined by a site-specific recombination event. In variants of the mouse myeloma MPC11 a so-called kappa (k) light chain fragment is expressed which consists of the MOPC321 leader peptide, joined to the kappa constant region peptide. Using the Southern blotting technique we found that the gene coding for the light chain fragment has apkparently been generated by an aberrant translocation of a V gene segment identical or very similar to the MOPC321 V gene segment into the large intervening sequence between the J and the C gene segments. The resulting deletion of the splice signals of the J segments could be the reason for the observed splicing between leader and C region sequences, a phenomenon which may be of general interest for the understanding of the splicing mechanism.
In mouse myeloma T the productive kappa light chain gene differs from its aberrantly rearranged allele in the patterns of DNAase I hypersensitive sites. In the region of the alleles where they are identical in sequence they have one site in common which lies 0.8 kb downstream of the coding region; but two sites upstream of and within the C gene segment (2) are found only on the non-productive allele. Within the region of different sequences both alleles have analogously located DNAase I hypersensitive sites; they lie 0.15 kb upstream of the respective leader segments and cover putative promoter sequences. Only one of the six DNAase I hypersensitive sites is also very sensitive towards micrococcal nuclease due to its particular DNA sequence. The non-rearranged gene studied in liver nuclei has no DNAase I hypersensitive sites but is preferentially cleaved in A/T rich regions.
Two different kappa light chain genes have previously been isolated from one mouse myeloma. The V (variable, abbreviations in ref. 2) gene segments of the two genes were now used to identify their germline counterparts in EcoRI digests of mouse liver DNA. In addition two sets of related V gene segments were found which hybridize with either of the two DNA probes. Five of the V region fragments of one set were cloned in a lambda phage vector and partially characterized by restriction mapping and Southern blot hybridization. Repetitive DNA sequences were found on each of the five fragments as well as on other cloned immunoglobulin gene containing fragments. Cross-hybridization between some but not all of the regions containing repetitive DNA sequences was observed.
A highly repeated DNA (designated satellite IA) was isolated from cultured cells of Muntiacus muntjak vaginalis and its organization analyzed by the use of restriction nucleases and hybridization experiments with cloned DNA-fragments. Several restriction nucleases cleave the satellite IA DNA into a series of fragments, which are multiples of a basic repeat unit of 800 bp. Sequences homologous to the satellite IA DNA were also found in a second highly repetitive DNA component of Muntiacus muntjak vaginalis (satellite IB). Its organization is more complex than the one of satellite IA and does not conform to a simple periodicity of a basic repeat unit.--Hybridization in situ revealed, that both satellites are confined in their entirety to the X-chromosome, where they are located at both arms close to the centromere. No satellite DNA was found at the Y1-chromosome, which is considered to be homologous to the long arm of the X-chromosome. These results have interesting implications for the evolution of the X-chromosome.
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