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. 1996 Dec 24;93(26):15272–15275. doi: 10.1073/pnas.93.26.15272

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Copyright © 1996, The National Academy of Sciences of the USA

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Integration of nonhomologous T-DNA into the genome of S. cerevisiae is random at the chromosome level. (A) A CHEF gel showing the separated chromosomes of an untransformed colony of S. cerevisiae strain RSY12. Each chromosome is indicated. (B) Chromosomes from Ura⁺ strains obtained after cocultivation of LBA1126(pRAL7102) with RSY12 were separated on a CHEF gel and blotted to a nylon membrane. The blot was probed with a labeled 1.1-kb HindIII URA3 fragment. Lane 1, RSY12 (not cocultivated); lane 2, Ura⁺ S. cerevisiae M5-1a strain obtained after cocultivation of M5-1a with LBA1100(pRAL7100). The T-DNA has integrated via a double crossover on chromosome V (11). Lane 3, as in lane 2, but the whole binary vector pRAL7100 has integrated via a single crossover on chromosome V, causing a shift in chromosome V mobility. Lanes 4–11, RSY12 Ura⁺ strains obtained after cocultivation of RSY12 with LBA1126(pRAL7102).