Analysis of Junction Sequences Resulting from Integration at Nonhomologous Loci in Neurospora Crassa

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We have analyzed the junctions involved in two examples of ectopic integration of plasmids containing the am(+) (glutamate dehydrogenase) gene into a strain of Neurospora crassa bearing a complete deletion of the am locus. In one transformed strain a single copy of plasmid DNA had been integrated into linkage group (LG) III DNA without the loss of chromosomal DNA. In contrast, 450 bp had been lost from plasmid sequences at the site of integration. The transforming DNA used was circular, so we postulate that the plasmid was linearized and truncated prior to its integration by end joining into a break in LG III DNA. There was no significant homology between the incoming DNA and DNA at the site of integration. The second transformed strain resulted from transformation with a linearized plasmid. It contained multiple integrated copies of plasmid DNA, one of which was recloned, together with adjacent chromosomal DNA, by plasmid rescue in Escherichia coli. Prior to integration into chromosomal DNA, the linear plasmid had been truncated by 64 bp on one end and 3.2 kbp on the other end. One end of the integrated DNA was adjacent to DNA from the right arm of LG I, while the other end was integrated into a copy of a repetitive sequence. Restriction fragment length polymerisim mapping showed that integration was in a copy of the repetitive sequence that is linked to the previously unassigned telomere M11 and is distantly linked to the LG VI marker con-11. Genetic analysis revealed that a long segment of LG I containing all markers from un-1 to the right tip has been translocated to the right end of LG VI. Tetrad analysis showed that the integrated DNA was closely linked to the translocation. We conclude that the transforming DNA was truncated and joined to DNA from two different chromosomes by end joining during the formation of a quasiterminal translocation, T(IR -> VIR) UK-T12. We also conclude that the previously unassigned telomere, M11, is the right end of LG VI.

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