State II<i>Dissociation</i>Element Formation Following<i>Activator</i>Excision in Maize

Conrad, Liza; Bai, Longchuan; Ahern, Kevin R.; Dusinberre, Kelly; Kane, Daniel P.; Brutnell, Thomas P.

doi:10.1534/genetics.107.075770

Cited by 11 publications

(20 citation statements)

References 75 publications

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“…In the presence of Ac, chromosome-breaking Ds elements (Ds, state I) can convert to a different state (Ds, state II) that rarely causes chromosome breakage (McClintock, 1949). State II Ds elements have been cloned from a number of loci; sequence analysis revealed that many of these were internally deleted versions of Ac (Weil et al, 1992;Yan et al, 1999;Conrad et al, 2007). A smaller number of State I Ds elements have also been cloned; their structures include doubleDs (a state II Ds inserted into another copy of the same element in the opposite orientation; Doring et al, 1984;Weck et al, 1984) and sesquiDs (an internal deletion derivative of doubleDs; Martinez-Ferez and Dooner, 1997).…”

Section: Introductionmentioning

confidence: 99%

Spatial Configuration of Transposable ElementAcTermini Affects Their Ability to Induce Chromosomal Breakage in Maize

Zhang

Pulletikurti

et al. 2010

The Plant Cell

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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 elements are in direct or reverse orientation can induce chromosome breakage. By contrast, no chromosome breakage is observed with alleles containing pairs of Ac/fAc elements in which the external termini of the paired elements can function as a macrotransposon. Among the structures that can lead to chromosome breaks, breakage frequency is inversely correlated with the distance between the interacting Ac/Ds termini. These results provide new insight into the mechanism of transposition-induced chromosome breakage, which is one outcome of the chromosome-restructuring ability of alternative transposition events.

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Section: Introductionmentioning

confidence: 99%

Spatial Configuration of Transposable ElementAcTermini Affects Their Ability to Induce Chromosomal Breakage in Maize

Zhang

Pulletikurti

et al. 2010

The Plant Cell

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“…To eliminate TPase expression from ps1(Ac), a genetic scheme was used to recover five Ds derivatives from the Ac insertion at ps1(Ac) (Conrad et al 2007). Four of the five ps1(Ds) alleles were identified as internal deletion derivatives that do not produce functional TPase protein but retain the element at the original genomic location as the donor Ac.…”

Section: Resultsmentioning

confidence: 99%

“…One base pair of the target site duplication adjacent to this Ds insertion was also deleted. In addition to the 3563-bp deletion in ps1(Ds2), filler DNA was also present at the deletion junction, which originated from both Ac and ps1 59-UTR sequences that flanked the insertion site (Conrad et al 2007).…”

Section: Resultsmentioning

confidence: 99%

“…Line ps1(Ac), originally defined as ps1-m8TAc, was discovered through an Ac regional mutagenesis of the ps1 locus from donor site bti97156TAc as previously described . Ds insertional alleles ps1(Ds1), ps1(Ds2), ps1(Ds3), ps1(Ds4), and ps1(Ds5) were derived from ps1(Ac) through a two-step genetic selection scheme as previously described (Conrad et al 2007).…”

Section: Methodsmentioning

confidence: 99%

“…The one viable insertion allele, ps1(Ac), carries a single Ac insertion in the 59-untranslated region (UTR) 16 bp upstream of the predicted Ps1 start codon in a 39 to 59 orientation relative to Ps1 transcription ). This single insertion allele and the nonautonomous Ds deletion derivatives generated from this allele (Conrad et al 2007) are the focus of this report.…”

Section: T He Maize Hat Family Members Activator/dissociationmentioning

confidence: 99%

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The Activator/Dissociation Transposable Elements Comprise a Two-Component Gene Regulatory Switch That Controls Endogenous Gene Expression in Maize

Bai

Brutnell

2011

Genetics

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The maize Activator/Dissociation (Ac/Ds) elements are able to replicate and transpose throughout the maize genome. Both elements preferentially insert into gene-rich regions altering the maize genome by creating unstable insertion alleles, stable derivative or excision alleles, or by altering the spatial or temporal regulation of gene expression. Here, we characterize an Ac insertion in the 59-UTR of the Pink Scutellum1 (Ps1) gene and five Ds derivatives generated through abortive transposition events. Characterization of Ps1 transcription initiation sites in this allelic series revealed several that began within the terminus of the Ac and Ds elements. Transcripts originating within Ds or Ac accumulated to lower levels than the wild-type Ps1 allele, but were often sufficient to rescue the seedling lethal phenotype associated with severe loss-of-function alleles. Transcription initiation sites were similar in Ac and Ds derivatives, suggesting that Ac transposase does not influence transcript initiation site selection. However, we show that Ac transposase can negatively regulate Ps1 transcript accumulation in a subset of Ds-insertion alleles resulting in a severe mutant phenotype. The role of maize transposons in gene evolution is discussed.

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The Mechanism ofAc/DsTransposition

Peterson

Zhang

2013

Plant Transposons and Genome Dynamics in Evolution

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State IIDissociationElement Formation FollowingActivatorExcision in Maize

Cited by 11 publications

References 75 publications

Spatial Configuration of Transposable ElementAcTermini Affects Their Ability to Induce Chromosomal Breakage in Maize

Spatial Configuration of Transposable ElementAcTermini Affects Their Ability to Induce Chromosomal Breakage in Maize

The Activator/Dissociation Transposable Elements Comprise a Two-Component Gene Regulatory Switch That Controls Endogenous Gene Expression in Maize

The Mechanism ofAc/DsTransposition

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