Second‐generation sequencing for gene discovery in the Brassicaceae

Abstract: SummaryThe Brassicaceae contains the most diverse collection of agriculturally important crop species of all plant families. Yet, this is one of the few families that do not form functional symbiotic associations with mycorrhizal fungi in the soil for improved nutrient acquisition. The genes involved in this symbiosis were more recently recruited by legumes for symbiotic association with nitrogen-fixing rhizobia bacteria. This study applied second-generation sequencing (SGS) and analysis tools to discover that… Show more

“…Although the Arabidopsis model is perhaps imperfect to evaluate PAC from boreal forest conifers or DSE from tallgrass prairie, many fundamental molecular mechanisms are conserved in plants. An elegant example of this is the presence of microbial symbiosis gene NSP in Arabidopsis implied important in plant-microbe interactions (Hayward et al 2012 ). Furthermore, the plentitude of advantages afforded by a well-developed model should not be ignored.…”

Unraveling the Dark Septate Endophyte Functions: Insights from the Arabidopsis Model

“…Although the Arabidopsis model is perhaps imperfect to evaluate PAC from boreal forest conifers or DSE from tallgrass prairie, many fundamental molecular mechanisms are conserved in plants. An elegant example of this is the presence of microbial symbiosis gene NSP in Arabidopsis implied important in plant-microbe interactions (Hayward et al 2012 ). Furthermore, the plentitude of advantages afforded by a well-developed model should not be ignored.…”

Unraveling the Dark Septate Endophyte Functions: Insights from the Arabidopsis Model

“…Draft references of both kabuli and desi chickpea genomes were also published in 2013 (Jain et al, 2013;Varshney et al, 2013b). The availability of these reference genomes enables the discovery of sequence based molecular markers and their association with agronomic traits for applied crop improvement (Edwards and Batley, 2010;Edwards et al, 2013;Hayward et al, 2012b).…”

High-resolution skim genotyping by sequencing reveals the distribution of crossovers and gene conversions in Cicer arietinum and Brassica napus

“…Adoption of A. thaliana model has also permitted a detailed dissection of molecular mechanisms underlying the P. indica symbiosis (Sherameti et al 2008a, 2008b, Vandassery et al 2008, Camehl et al 2010; Lee et al 2011, Khatabi et al 2012, Nongbri et al 2012, as well as characterization of a previously unknown colonization mechanism (Qiang et al 2012b). Despite the absence of root symbioses in Brassicaceae, including A. thaliana, the genes that are involved in root symbioses seem to be conserved (Hayward et al 2012). As a result, this model system bears a great promise in well-informed dissection of root symbioses.…”

Arabidopsis thaliana model system reveals a continuum of responses to root endophyte colonization