Rachel Tavares scite author profile

Wild and weedy relatives of domesticated crops harbor genetic variants that can advance agricultural biotechnology. Here we provide a genome resource for the wild plant green millet (Setaria viridis), a model species for studies of C4 grasses, and use the resource to probe domestication genes in the close crop relative foxtail millet (Setaria italica). We produced a platinum-quality genome assembly of S. viridis and de novo assemblies for 598 wild accessions and exploited these assemblies to identify loci underlying three traits: response to climate, a ‘loss of shattering’ trait that permits mechanical harvest and leaf angle, a predictor of yield in many grass crops. With CRISPR–Cas9 genome editing, we validated Less Shattering1 (SvLes1) as a gene whose product controls seed shattering. In S. italica, this gene was rendered nonfunctional by a retrotransposon insertion in the domesticated loss-of-shattering allele SiLes1-TE (transposable element). This resource will enhance the utility of S. viridis for dissection of complex traits and biotechnological improvement of panicoid crops.

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The anatomy of abscission zones is diverse among grass species

Leyva

Tavares

et al. 2020

American J of Botany

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Premise Abscission zones (AZ) are specialized cell layers that separate plant parts at the organ junction upon developmental or environmental signals. Fruit or seed abscission has been well studied in model species because of its crucial role for seed dispersal. Previous work showed that AZ localization differs among species of Poaceae and that AZ formation is histologically and genetically distinct in three distantly related grass species, refuting the idea of a broadly conserved module. However, whether AZ structure is consistent within subfamilies is unknown. Methods Eleven species were selected from six subfamilies of Poaceae, and their AZ was investigated using paraffin‐embedded, stained material. Observations were added from the literature for an additional six species. Data were recorded on AZ location and whether cells in the AZ were distinguishable by size or lignification. Characteristics of the AZ were mapped on the phylogeny using maximum likelihood. Results Abscission zone anatomy and histology vary among species, and characteristics of the AZ do not correlate with phylogeny. Twelve of the seventeen studied species have an AZ in which the cells are significantly smaller than surrounding cells. Of these, eight have differential lignification. Differential lignification is often associated with differential cell size, but not vice versa. Conclusions Neither smaller cells in the AZ nor differential lignification between the AZ and surrounding cells is required for abscission, although differential cell size and lignification are often correlated. Abscission zone anatomy does not correlate with phylogeny, suggesting its rapid change over evolutionary time.

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TheSetaria viridisgenome and diversity panel enables discovery of a novel domestication gene

Mamidi

Healey

Huang

et al. 2019

Preprint

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We present a platinum-quality genome assembly for the model grass Setaria viridis, and high quality genomic sequences of 600+ wild accessions (average 42.6x coverage).Presence-absence variation (PAV) and single-nucleotide polymorphisms (SNPs) identify several subpopulations in North America. Using genome-wide association mapping plus CRISPR-Cas9 technology, we identified and validated Less Shattering1 (SvLES1), a gene for seed shattering with a retrotransposon insertion in the domesticated S. italica (foxtail millet) allele. We also identified a candidate gene for erect leaves, orthologous to the maize gene liguleless2. These results demonstrate the utility of the model plant S. viridis for complex trait dissection in panicoid crops.

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Rachel Tavares

A genome resource for green millet Setaria viridis enables discovery of agronomically valuable loci

The anatomy of abscission zones is diverse among grass species

TheSetaria viridisgenome and diversity panel enables discovery of a novel domestication gene

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