Publications by authors named "Samantha Snodgrass"
The origins of maize were the topic of vigorous debate for nearly a century, but neither the current genetic model nor earlier archaeological models account for the totality of available data, and recent work has highlighted the potential contribution of a wild relative, ssp. . Our population genetic analysis reveals that the origin of modern maize can be traced to an admixture between ancient maize and ssp.
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- Genetic variation in regulatory sequences impacts transcription factor binding, influencing plant traits, particularly in the brassinosteroid growth hormone pathway.
- Researchers employed a hybrid allele-specific chromatin binding sequencing technique (HASCh-seq) to reveal that ZmBZR1 targets thousands of genes in maize, with significant allele-specific binding observed.
- The study highlights that both genetic and epigenetic factors contribute to variations in ZmBZR1 occupancy and links this variation to yield and disease-related traits, providing a new method for genomic analysis in plants.
Domestication in the cotton genus is remarkable in that it has occurred independently four different times at two different ploidy levels. Relatively little is known about genome evolution and domestication in the cultivated diploid species Gossypium herbaceum and Gossypium arboreum, due to the absence of wild representatives for the latter species, their ancient domestication, and their joint history of human-mediated dispersal and interspecific gene flow. Using in-depth resequencing of a broad sampling from both species, we provide support for their independent domestication, as opposed to a progenitor-derivative relationship, showing that diversity (mean π = 6 × 10-3) within species is similar, and that divergence between species is modest (FST = 0.
View Article and Find Full Text PDFWe report de novo genome assemblies, transcriptomes, annotations, and methylomes for the 26 inbreds that serve as the founders for the maize nested association mapping population. The number of pan-genes in these diverse genomes exceeds 103,000, with approximately a third found across all genotypes. The results demonstrate that the ancient tetraploid character of maize continues to degrade by fractionation to the present day.
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- Advances in long-read data and scaffolding technologies have led to improved reference-quality genome assemblies, particularly for complex genomes like maize.
- Critical assessments of sequence depth and read length are essential for effective resource allocation when generating these assemblies.
- The study highlights that higher depth and longer subread lengths significantly enhance assembly quality, with high-quality optical maps further improving the contiguity of fragmented assemblies.
Study of domestication is complex but essential to our understanding of evolutionary processes and for crop breeding. A new study analyzes genomic data from 163 lines of domesticated African rice and 83 lines of its wild relative, clarifying the history of African rice domestication.
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