2010
DOI: 10.1105/tpc.109.070052
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Spatial Configuration of Transposable ElementAcTermini Affects Their Ability to Induce Chromosomal Breakage in Maize  

Abstract: Composite or closely linked maize (Zea mays) Ac/Ds transposable elements can induce chromosome breakage, but the precise configurations of Ac/Ds elements that can lead to chromosome breakage are not completely defined. Here, we determined the structures and chromosome breakage properties of 15 maize p1 alleles: each allele contains a fixed fractured Ac (fAc) element and a closely linked full-length Ac at various flanking sites. Our results show that pairs of Ac/fAc elements in which the termini of different el… Show more

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Cited by 26 publications
(35 citation statements)
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“…Each resulting chromatid would have a deletion flanking either the 59 Ac or 39 fAc ends (Figure 4). Insertion of the Ac/fAc termini in the opposite orientation would lead to formation of a chromatid bridge and chromosome breakage, as previously proposed (Huang and Dooner 2008;Yu et al 2010). This model fits previous observations, including those that: (1) Ac/Ds elements exhibit a pronounced preference for local transposition; (2) the Ac element from the standard p1-vv allele often inserts into the sister chromatid (Greenblatt and Brink 1962); (3) the maize p1 gene promoter and exon 1 sequences are preferred sites for Ac insertion (Athma et al 1992), and this region is located within the Ac/fAc intertransposon segment in the P1-rr11 and P1-rr910 alleles.…”
Section: Discussionmentioning
confidence: 66%
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“…Each resulting chromatid would have a deletion flanking either the 59 Ac or 39 fAc ends (Figure 4). Insertion of the Ac/fAc termini in the opposite orientation would lead to formation of a chromatid bridge and chromosome breakage, as previously proposed (Huang and Dooner 2008;Yu et al 2010). This model fits previous observations, including those that: (1) Ac/Ds elements exhibit a pronounced preference for local transposition; (2) the Ac element from the standard p1-vv allele often inserts into the sister chromatid (Greenblatt and Brink 1962); (3) the maize p1 gene promoter and exon 1 sequences are preferred sites for Ac insertion (Athma et al 1992), and this region is located within the Ac/fAc intertransposon segment in the P1-rr11 and P1-rr910 alleles.…”
Section: Discussionmentioning
confidence: 66%
“…Reversed Ds ends in very close proximity exhibit reduced alternative transposition in maize: Previously we reported that alleles containing pairs of reverseoriented Ac/Ds ends can cause chromosome breakage, and chromosome-breakage frequency is inversely proportional to the distance between the element termini (Yu et al 2010). The previous study examined pairs of Ac/Ds elements separated by distances ranging from 0.8 to 13 kb.…”
Section: A Translocations and Large Inversions (Five Cases)mentioning
confidence: 99%
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