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Wheat chromatin architecture is organized in genome territories and transcrip...
Polyploidy is ubiquitous in eukaryotic plant and fungal lineages, and it leads to the co-existence of several copies of similar or related genomes in one nucleus. In plants,... -
Uncovering hidden variation in polyploid wheat
Comprehensive reverse genetic resources, which have been key to understanding gene function in diploid model organisms, are missing in many polyploid crops. Young polyploid... -
Triticeae Genomics for Sustainable Agriculture
Version 1.1 assemblies of Triticum aestivum (Cadenza, Paragon, Robigus, Claire) and Tritium turgidum (Kronos). Version 1.1 assemblies were generated from filtering v1.0... -
The transcriptional landscape of hexaploid wheat across tissues, cultivars, a...
The coordinated expression of highly related homoeologous genes in polyploid species underlies the phenotypes of many of the world's major crops. However, the balance of... -
Integrating genomic resources to present full gene and promoter capture probe...
Whole genome shotgun re-sequencing of wheat is expensive because of its large, repetitive genome. Moreover, sequence data can fail to map uniquely to the reference genome making... -
Using 12Mb capture to profile the Watkins bread wheat landrace diversity coll...
Wheat has been domesticated into a large number of agricultural environments and has a remarkable ability to adapt to diverse environments. To understand this process, we survey... -
A modified sequence capture approach allowing standard and methylation analys...
Bread wheat has a large complex genome that makes whole genome resequencing costly. Therefore, genome complexity reduction techniques such as sequence capture make re-sequencing... -
Data management and best practice for plant science
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