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Wiley InterScience | |||||||||
  The Plant JournalVolume 44 Issue 1, Pages 52 - 61 Published Online: 26 Aug 2005 Journal compilation © 2010 Blackwell Publishing Ltd and the Society for Experimental Biology Published in association with the Society for Experimental Biology
Abstract | References | Full Text: HTML, PDF (Size: 206K) | Related Articles | Citation Tracking  Steady-state transposon mutagenesis in inbred maize Copyright 2005 Blackwell Publishing Ltd KEYWORDS transposon mutagenesis • Robertsons Mutator • reverse genetics • insertional mutagenesis • maize functional genomics ABSTRACTWe implement a novel strategy for harnessing the power of high-copy transposons for functional analysis of the maize genome, and report behavioral features of the Mutator system in a uniform inbred background. The unique UniformMu population and database facilitate high-throughput molecular analysis of Mu-tagged mutants and gene knockouts. Key features of the population include: (i) high mutation frequencies (7% independent seed mutations) and moderation of copy number (approximately 57 total Mu elements; 1–2 MuDR copies per plant) were maintained by continuous back-crossing into a phenotypically uniform inbred background; (ii) a bz1-mum9 marker enabled selection of stable lines (loss of MuDR), inhibiting further transpositions in lines selected for molecular analysis; (iii) build-up of mutation load was prevented by screening Mu-active parents to exclude plants carrying pre-existing seed mutations. To create a database of genomic sequences flanking Mu insertions, selected mutant lines were analyzed by sequencing of MuTAIL PCR clone libraries. These sequences were annotated and clustered to facilitate bioinformatic subtraction of ancestral elements and identification of insertions unique to mutant lines. New insertions targeted low-copy, gene-rich sequences, and in silico mapping revealed a random distribution of insertions over the genome. Our results indicate that Mu populations differ markedly in the occurrence of Mu insertion hotspots and the frequency of suppressible mutations. We suggest that controlled MuDR copy number in UniformMu lines is a key determinant of these differences. The public database (http://uniformmu.org; http://endosperm.info) includes pedigree and phenotypic data for over 2000 independent seed mutants selected from a population of 31 548 F Received 29 April 2005; revised 23 June 2005; accepted 28 June 2005. | 
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