Induced and natural variation affect traits independently in hybrid Populus
Abstract The genetic control of many plant traits can be highly complex. Both allelic variation (sequence change) and dosage variation (copy number change) contribute to a plant's phenotype. While numerous studies have investigated the effect of allelic or dosage variation, very few have docume...
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Veröffentlicht in: | G3 : genes - genomes - genetics 2024-11, Vol.14 (11) |
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Sprache: | eng |
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Zusammenfassung: | Abstract
The genetic control of many plant traits can be highly complex. Both allelic variation (sequence change) and dosage variation (copy number change) contribute to a plant's phenotype. While numerous studies have investigated the effect of allelic or dosage variation, very few have documented both within the same system, leaving their relative contribution to phenotypic effects unclear. The Populus genome is highly polymorphic, and poplars are fairly tolerant of gene dosage variation. Here, using a previously established Populus hybrid F1 population, we assessed and compared the effect of natural allelic variation and induced dosage variation on biomass, phenology, and leaf morphology traits. We identified QTLs for many of these traits, but our results indicate limited overlap between the QTLs associated with natural allelic variation and induced dosage variation. Additionally, the integration of data from both allelic and dosage variation identifies a larger set of QTLs that together explain a larger percentage of the phenotypic variance. Finally, our results suggest that the effect of the large indels might mask that of allelic QTLs. Our study helps clarify the relationship between allelic and dosage variation and their effects on quantitative traits.Both environmental and genetic variation can affect plant growth. Within the genetic factors, both DNA sequence and dosage (gene copy number) can change and affect plant function. Here, Guo et al. use a population of poplar trees to investigate if these two types of changes affect plants similarly, and whether or not they interact with each other. This helps create a broader understanding of what matters most to proper plant function and what is most likely to affect it. |
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ISSN: | 2160-1836 2160-1836 |
DOI: | 10.1093/g3journal/jkae218 |