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The complex architecture and epigenomic impact of plant T-DNA insertions
by
Castanon, Rosa
, Zander, Mark
, Motley, S. Timothy
, Michael, Todd P.
, Slotkin, R. Keith
, Nery, Joseph R.
, Sandoval, Justin P.
, Jupe, Florian
, Rivkin, Angeline C.
, Ecker, Joseph R.
, Chen, Huaming
in
Agrobacterium tumefaciens
/ Agrobacterium tumefaciens - genetics
/ Arabidopsis
/ Arabidopsis - genetics
/ Arabidopsis thaliana
/ Bioinformatics
/ Biology and Life Sciences
/ Botanical research
/ Chromatin
/ Chromosome Mapping
/ Chromosome translocations
/ Chromosomes, Plant - genetics
/ Cytosine
/ Deoxyribonucleic acid
/ DNA
/ DNA methylation
/ DNA Methylation - genetics
/ DNA sequencing
/ DNA, Bacterial - genetics
/ DNA, Plant - genetics
/ Engineering and Technology
/ Epigenesis, Genetic - genetics
/ Epigenetics
/ Funding
/ Gene mapping
/ Genes
/ Genetic aspects
/ Genetic research
/ Genome editing
/ Genome, Plant - genetics
/ Genomes
/ Genomics
/ Laboratories
/ Methods
/ Methylation
/ Mutagenesis, Insertional - genetics
/ Nucleotide sequence
/ Plant biology
/ Plant genetic engineering
/ Plant genetics
/ Plant sciences
/ Plant Tumor-Inducing Plasmids - genetics
/ Plants, Genetically Modified - genetics
/ Plants, Genetically Modified - growth & development
/ Pyrimidines
/ Research and Analysis Methods
/ RNA
/ RNA-mediated interference
/ siRNA
/ Software
/ T-DNA
/ Technology
/ Transformation, Genetic
/ Transgenic plants
/ Tumors
/ Venter, J Craig
2019
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The complex architecture and epigenomic impact of plant T-DNA insertions
by
Castanon, Rosa
, Zander, Mark
, Motley, S. Timothy
, Michael, Todd P.
, Slotkin, R. Keith
, Nery, Joseph R.
, Sandoval, Justin P.
, Jupe, Florian
, Rivkin, Angeline C.
, Ecker, Joseph R.
, Chen, Huaming
in
Agrobacterium tumefaciens
/ Agrobacterium tumefaciens - genetics
/ Arabidopsis
/ Arabidopsis - genetics
/ Arabidopsis thaliana
/ Bioinformatics
/ Biology and Life Sciences
/ Botanical research
/ Chromatin
/ Chromosome Mapping
/ Chromosome translocations
/ Chromosomes, Plant - genetics
/ Cytosine
/ Deoxyribonucleic acid
/ DNA
/ DNA methylation
/ DNA Methylation - genetics
/ DNA sequencing
/ DNA, Bacterial - genetics
/ DNA, Plant - genetics
/ Engineering and Technology
/ Epigenesis, Genetic - genetics
/ Epigenetics
/ Funding
/ Gene mapping
/ Genes
/ Genetic aspects
/ Genetic research
/ Genome editing
/ Genome, Plant - genetics
/ Genomes
/ Genomics
/ Laboratories
/ Methods
/ Methylation
/ Mutagenesis, Insertional - genetics
/ Nucleotide sequence
/ Plant biology
/ Plant genetic engineering
/ Plant genetics
/ Plant sciences
/ Plant Tumor-Inducing Plasmids - genetics
/ Plants, Genetically Modified - genetics
/ Plants, Genetically Modified - growth & development
/ Pyrimidines
/ Research and Analysis Methods
/ RNA
/ RNA-mediated interference
/ siRNA
/ Software
/ T-DNA
/ Technology
/ Transformation, Genetic
/ Transgenic plants
/ Tumors
/ Venter, J Craig
2019
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The complex architecture and epigenomic impact of plant T-DNA insertions
by
Castanon, Rosa
, Zander, Mark
, Motley, S. Timothy
, Michael, Todd P.
, Slotkin, R. Keith
, Nery, Joseph R.
, Sandoval, Justin P.
, Jupe, Florian
, Rivkin, Angeline C.
, Ecker, Joseph R.
, Chen, Huaming
in
Agrobacterium tumefaciens
/ Agrobacterium tumefaciens - genetics
/ Arabidopsis
/ Arabidopsis - genetics
/ Arabidopsis thaliana
/ Bioinformatics
/ Biology and Life Sciences
/ Botanical research
/ Chromatin
/ Chromosome Mapping
/ Chromosome translocations
/ Chromosomes, Plant - genetics
/ Cytosine
/ Deoxyribonucleic acid
/ DNA
/ DNA methylation
/ DNA Methylation - genetics
/ DNA sequencing
/ DNA, Bacterial - genetics
/ DNA, Plant - genetics
/ Engineering and Technology
/ Epigenesis, Genetic - genetics
/ Epigenetics
/ Funding
/ Gene mapping
/ Genes
/ Genetic aspects
/ Genetic research
/ Genome editing
/ Genome, Plant - genetics
/ Genomes
/ Genomics
/ Laboratories
/ Methods
/ Methylation
/ Mutagenesis, Insertional - genetics
/ Nucleotide sequence
/ Plant biology
/ Plant genetic engineering
/ Plant genetics
/ Plant sciences
/ Plant Tumor-Inducing Plasmids - genetics
/ Plants, Genetically Modified - genetics
/ Plants, Genetically Modified - growth & development
/ Pyrimidines
/ Research and Analysis Methods
/ RNA
/ RNA-mediated interference
/ siRNA
/ Software
/ T-DNA
/ Technology
/ Transformation, Genetic
/ Transgenic plants
/ Tumors
/ Venter, J Craig
2019
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The complex architecture and epigenomic impact of plant T-DNA insertions
Journal Article
The complex architecture and epigenomic impact of plant T-DNA insertions
2019
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Overview
The bacterium Agrobacterium tumefaciens has been the workhorse in plant genome engineering. Customized replacement of native tumor-inducing (Ti) plasmid elements enabled insertion of a sequence of interest called Transfer-DNA (T-DNA) into any plant genome. Although these transfer mechanisms are well understood, detailed understanding of structure and epigenomic status of insertion events was limited by current technologies. Here we applied two single-molecule technologies and analyzed Arabidopsis thaliana lines from three widely used T-DNA insertion collections (SALK, SAIL and WISC). Optical maps for four randomly selected T-DNA lines revealed between one and seven insertions/rearrangements, and the length of individual insertions from 27 to 236 kilobases. De novo nanopore sequencing-based assemblies for two segregating lines partially resolved T-DNA structures and revealed multiple translocations and exchange of chromosome arm ends. For the current TAIR10 reference genome, nanopore contigs corrected 83% of non-centromeric misassemblies. The unprecedented contiguous nucleotide-level resolution enabled an in-depth study of the epigenome at T-DNA insertion sites. SALK_059379 line T-DNA insertions were enriched for 24nt small interfering RNAs (siRNA) and dense cytosine DNA methylation, resulting in transgene silencing via the RNA-directed DNA methylation pathway. In contrast, SAIL_232 line T-DNA insertions are predominantly targeted by 21/22nt siRNAs, with DNA methylation and silencing limited to a reporter, but not the resistance gene. Additionally, we profiled the H3K4me3, H3K27me3 and H2A.Z chromatin environments around T-DNA insertions using ChIP-seq in SALK_059379, SAIL_232 and five additional T-DNA lines. We discovered various effect s ranging from complete loss of chromatin marks to the de novo incorporation of H2A.Z and trimethylation of H3K4 and H3K27 around the T-DNA integration sites. This study provides new insights into the structural impact of inserting foreign fragments into plant genomes and demonstrates the utility of state-of-the-art long-range sequencing technologies to rapidly identify unanticipated genomic changes.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
/ Agrobacterium tumefaciens - genetics
/ Chromosomes, Plant - genetics
/ Cytosine
/ DNA
/ Epigenesis, Genetic - genetics
/ Funding
/ Genes
/ Genomes
/ Genomics
/ Methods
/ Mutagenesis, Insertional - genetics
/ Plant Tumor-Inducing Plasmids - genetics
/ Plants, Genetically Modified - genetics
/ Plants, Genetically Modified - growth & development
/ Research and Analysis Methods
/ RNA
/ siRNA
/ Software
/ T-DNA
/ Tumors
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