Early transposon (ETn) elements are 5.7-kb retrotransposons found in the murine genome. We have sequenced large portions of two ETn elements that have apparently transposed within the DNA of a murine myeloma cell line, P3.26Bu4. One of the transposed ETn elements has 5' and 3' long terminal repeats (LTRs) that are exact duplicates of each other and has a 6-bp target site duplication. These results suggest that this element, which inserted into an immunoglobulin gamma 1 switch region, moved by a retrotransposition process. Our nucleotide sequences confirm that individual ETn elements are very similar to one another and lack open reading frames. However, the ETn sequences reported here and those previously described differ significantly near their 5' LTRs, including 200 bp of weak similarity and 240 bp of complete disparity. Southern hybridization analysis suggests that both subfamilies of ETn sequences are represented many times in the mouse genome. The possibility that the disparate sequences have a role in transposition by ETn elements is discussed.
The chromosomal translocations found in many B-cell tumors result in the joining of a c-myc oncogene with an immunoglobulin heavy chain switch region. This finding is striking because the natural function of switch regions is to mediate DNA rearrangements important to the maturation of immune responses. These normal switch rearrangements are probably mediated by specific enzymes. In this paper we report the isolation of the two reciprocal products of a recombination between a cmyc gene on murine chromosome 15 and an immunoglobulin switch region (SAS72b) on chromosome 12. We have determined the sequences of these DNA molecules near the recombination sites and show that the recombination is nearly perfectly reciprocal, with a seven-nucleotide deletion. An examination of the sequences reported in this paper, and of sequences published by other authors, shows a correlation between the points of recombination for c-ayc-S segment rearrangements and for normal heavy chain switches. We suggest that this correlation implies a role for switch recombination enzymes in creating substrates for the c-myc recombination. The c-myc gene also seems to share some limited homology to sequences thought to be important in heavy chain switching. Finally, we discuss a working model that accounts for some characteristics of c-myc-S segment recombinations. The model also suggests-a mechanism for increased transcriptional activity of the rearranged c-myc oncogene in B-cell tumors.
A number of moderately reiterated murine genetic elements have been shown to have structures like those of retroviral proviruses. These elements are thought to be transposons, although little evidence of their transposability exists. Two members of one of these families of reiterated elements, the ETn family, have inserted into separate immunoglobulin heavy-chain switch regions in the plasmacytoma P3.26Bu4. Switch regions are those DNA segments associated with each immunoglobulin heavy-chain gene in which the somatic recombinations that accompany the heavy-chain switch occur. This role in somatic recombination may be relevant to the ETn insertions into the switch regions in P3.26Bu4 DNA. P3.26Bu4 and a number of other B-lineage cells contain ETn transcripts.
The immunoglobulin heavy chain isotype switch is mediated by a DNA rearrangement involving specific genomic segments referred to as switch regions. Switch regions are composed of tandemly repeated simple sequences. The role of the tandemly repeated structure of switch regions in the switch recombination process is not understood. We mapped eight recombination sites--six in the gamma 1 and two in the gamma 3 tandem arrays. In addition, we obtained molecular clones representing three of the six gamma 1 rearrangements, and determined the nucleotide sequences of the recombination sites in each. In general, the rearrangements are confined to the tandem repeat units, and are not clustered in a particular portion of either the gamma 3 or gamma 1 switch region. Nucleotide sequence analysis of one of the recombinant clones, gamma M35, reveals evidence for a successive switch event wherein a recombination between S mu and S gamma 3 was followed by recombination 57 bp downstream with S gamma 1. gamma 1 sequence data from the molecular clones we obtained, together with similar data from other investigators regarding the gamma 1, gamma 2b, and gamma 2a switch regions, reveals that recombinations tend to occur at homologous positions of the respective gamma-unit repeats, adjacent to the elements AGCT and GGGG found in each. This finding suggests that the cutting and religation step of the recombination process is mediated by a recombinase common to the four gamma-isotypes.
A number of moderately reiterated murine genetic elements have been shown to have structures like those of retroviral proviruses. These elements are thought to be transposons, although little evidence of their transposability exists. Two members of one of these families of reiterated elements, the ETn family, have inserted into separate immunoglobulin heavy-chain switch regions in the plasmacytoma P3.26Bu4. Switch regions are those DNA segments associated with each immunoglobulin heavy-chain gene in which the somatic recombinations that accompany the heavy-chain switch occur. This role in somatic recombination may be relevant to the ETn insertions into the switch regions in P3.26Bu4 DNA. P3.26Bu4 and a number of other B-lineage cells contain ETn transcripts.
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