Matches in DBpedia 2016-04 for { <http://dbpedia.org/resource/Ac/Ds_Activator/Dissociation_Transposable_Element> ?p ?o }
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- Dissociation_Transposable_Element abstract "The Ac/Ds transposable element system of maize was first discovered by Barbara McClintock, leading to her 1983 Nobel Prize in Medicine. The Ac Activator element is autonomous, whereas the Ds Dissociation element requires an Activator element to transpose. Ac was initially discovered as enabling a Ds element to break chromosomes. Both Ac and Ds can also insert into genes, causing mutants that may revert to normal on excision of the element. These elements were first isolated and sequenced By Federoff et al. 1983 using insertions of Ac and Ds into the well-studied Waxy(Wx1) gene.The elements have been shown to function in other plants, including tobacco (Baker et al. 1987 ), Arabidopsis (Van SLuys 1987) and rice (Murai et al. 1991).Genomic analysis of maize show that these elements, which share terminal 11 bp inverted repeat sequences, have much sequence heterogeneity, both in length and content. They also include a class of DNA elements that do not transpose in the presence of the Ac element (Du et al. 2011). The chromosome breaking property has been shown to come from pairs of closely positioned elements, reviewed by Huang and Dooner 2008.".
- Dissociation_Transposable_Element wikiPageExternalLink www.maizegdb.org.
- Dissociation_Transposable_Element wikiPageID "41502227".
- Dissociation_Transposable_Element wikiPageLength "4977".
- Dissociation_Transposable_Element wikiPageOutDegree "11".
- Dissociation_Transposable_Element wikiPageRevisionID "688804648".
- Dissociation_Transposable_Element wikiPageWikiLink Barbara_McClintock.
- Dissociation_Transposable_Element wikiPageWikiLink Category:Genetics.
- Dissociation_Transposable_Element wikiPageWikiLink Category:Plant_genes.
- Dissociation_Transposable_Element wikiPageWikiLink Category:Plant_genetics.
- Dissociation_Transposable_Element wikiPageWikiLink Chromosome.
- Dissociation_Transposable_Element wikiPageWikiLink Inverted_repeat.
- Dissociation_Transposable_Element wikiPageWikiLink List_of_Nobel_laureates_in_Physiology_or_Medicine.
- Dissociation_Transposable_Element wikiPageWikiLink Maize.
- Dissociation_Transposable_Element wikiPageWikiLink Mutation.
- Dissociation_Transposable_Element wikiPageWikiLink Transposable_element.
- Dissociation_Transposable_Element wikiPageWikiLink Waxy_corn.
- Dissociation_Transposable_Element wikiPageWikiLinkText "Ac/Ds".
- Dissociation_Transposable_Element wikiPageWikiLinkText "transposable AC element".
- Dissociation_Transposable_Element wikiPageUsesTemplate Template:Empty_section.
- Dissociation_Transposable_Element wikiPageUsesTemplate Template:Reflist.
- Dissociation_Transposable_Element wikiPageUsesTemplate Template:Technical.
- Dissociation_Transposable_Element subject Category:Genetics.
- Dissociation_Transposable_Element subject Category:Plant_genes.
- Dissociation_Transposable_Element subject Category:Plant_genetics.
- Dissociation_Transposable_Element comment "The Ac/Ds transposable element system of maize was first discovered by Barbara McClintock, leading to her 1983 Nobel Prize in Medicine. The Ac Activator element is autonomous, whereas the Ds Dissociation element requires an Activator element to transpose. Ac was initially discovered as enabling a Ds element to break chromosomes. Both Ac and Ds can also insert into genes, causing mutants that may revert to normal on excision of the element.".
- Dissociation_Transposable_Element label "Ac/Ds Activator/Dissociation Transposable Element".
- Dissociation_Transposable_Element sameAs Q15616211.
- Dissociation_Transposable_Element sameAs m.0zwpdjr.
- Dissociation_Transposable_Element sameAs Q15616211.
- Dissociation_Transposable_Element wasDerivedFrom Dissociation_Transposable_Element?oldid=688804648.
- Dissociation_Transposable_Element isPrimaryTopicOf Dissociation_Transposable_Element.