A reciprocal cross design to map the genetic architecture of complex traits in apomictic plants

Yin, Danni; Zhu, Xuli; Jiang, Libo; Zhang, Jian; Zeng, Yanru; Wu, Rongling

doi:10.1111/nph.13128

Cited by 7 publications

(6 citation statements)

References 32 publications

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“…To strengthen the advantages of each mapping approach and overcome disadvantages of them, they should be integrated into a unified framework for the same mapping population. Wu and Zeng (2001) and Wu et al (2002a) are the first who have developed a joint model of linkage-LD mapping, validated the statistical properties of the model, and justified its practical application (Hou et al, 2009;Yin et al, 2015). In particular, based on the allogamous behavior of forest trees, they proposed an open-pollination (OP) sampling strategy for joint linkage-LD mapping, followed by elegant statistical algorithms for parameter estimation and testing.…”

Section: Discussionmentioning

confidence: 98%

The Genetic Architecture of Juvenile Growth Traits in the Conifer Torreya grandis as Revealed by Joint Linkage and Linkage Disequilibrium Mapping

Chen

Dong

et al. 2022

Front. Plant Sci.

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Despite its high economical and ornamental values, Torreya grandis, a dioecious non-timber coniferous species, has long been an underrepresented species. However, the advent and application of advanced genotyping technologies have stimulated its genetic research, making it possible to gain new insight into the genetic architecture of complex traits that may not be detected for model species. We apply an open-pollination (OP) mapping strategy to conduct a QTL mapping experiment of T. grandis, in which nearly 100 unrelated trees randomly chosen from the species’ natural distribution and their half-sib progeny are simultaneously genotyped. This strategy allows us to simultaneously estimate the recombination fractions and linkage disequilibrium (LD) coefficients between each pair of markers. We reconstruct a high-density linkage map of 4,203 SNPs covering a total distance of 8,393.95 cM and plot pairwise normalized LD values against genetic distances to build up a linkage-LD map. We identify 13 QTLs for stem basal diameter growth and 4 QTLs for stem height growth in juvenile seedlings. From the linkage-LD map, we infer the evolutionary history of T. grandis and each of its QTLs. The slow decay of QTL-related LDs indicates that these QTLs and their harboring genomic regions are evolutionarily relatively young, suggesting that they can better utilized by clonal propagation rather than through seed propagation. Genetic results from the OP sampling strategy could provide useful guidance for genetic studies of other dioecious species.

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Section: Discussionmentioning

confidence: 98%

The Genetic Architecture of Juvenile Growth Traits in the Conifer Torreya grandis as Revealed by Joint Linkage and Linkage Disequilibrium Mapping

Chen

Dong

et al. 2022

Front. Plant Sci.

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“…First, by constructing the linkage-LD map, it can be embraced as a tool for inferring the origin and evolutionary process of natural populations. Second, this design, when implemented with an efficient algorithm, allows estimates of many additional population genetic parameters, such as outcrossing rate [29], apomixis rate [30][31][32], and genetic interference [33], thereby enhancing population and evolutionary genetic Á across genetic distance in cM for canine multigenerational pedigrees [9]. D 0 ab values were estimated from a traditional sampling strategy for LD analysis by Weir's [21] collapsed approach, whereas the recombination rates estimated from meiotic information occurring in artificial crosses.…”

Section: Discussionmentioning

confidence: 99%

A unifying experimental design for dissecting tree genomes

Sun

Zhu

Zhang

et al. 2015

Trends in Plant Science

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“…For those outcrossing species that undergo both outcrossing and selfing pollination, we can formulate a mixture model that distinguishes the same genotype formed by selfing and outcrossing, for which the EM algorithm is implemented to estimate outcrossing rate (Li et al ., ). In addition, some plants are apomictic, for which a mixture model can be similarly specified to estimate the proportion of progeny with the same genotype derived from apomictic and meiotic processes (Hou et al ., ; Yin et al ., ; Zeng et al ., 2014b). Outcrossing rate and apomictic fraction are two important parameters that can characterize population structure, diversity and evolution.…”

Section: Discussionmentioning

confidence: 99%

A unified DNA sequence and non‐DNA sequence mapping model of complex traits

et al. 2019

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Summary Increasing evidence shows that quantitative inheritance is based on both DNA sequence and non‐DNA sequence variants. However, how to simultaneously detect these variants from a mapping study has been unexplored, hampering our effort to illustrate the detailed genetic architecture of complex traits. We address this issue by developing a unified model of quantitative trait locus (QTL) mapping based on an open‐pollinated design composed of randomly sampling maternal plants from a natural population and their half‐sib seeds. This design forms a two‐level hierarchical platform for a joint linkage‐linkage disequilibrium analysis of population structure. The EM algorithm was implemented to estimate and test DNA sequence‐based effects and non‐DNA sequence‐based effects of QTLs. We applied this model to analyze genetic mapping data from the OP design of a gymnosperm coniferous species, Torreya grandis, identifying 25 significant DNA sequence and non‐DNA sequence QTLs for seedling height and diameter growth in different years. Results from computer simulation show that the unified model has good statistical properties and is powerful for QTL detection. Our model enables the tests of how a complex trait is affected differently by DNA‐based effects and non‐DNA sequence‐based transgenerational effects, thus allowing a more comprehensive picture of genetic architecture to be charted and quantified.

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A reciprocal cross design to map the genetic architecture of complex traits in apomictic plants

Cited by 7 publications

References 32 publications

The Genetic Architecture of Juvenile Growth Traits in the Conifer Torreya grandis as Revealed by Joint Linkage and Linkage Disequilibrium Mapping

The Genetic Architecture of Juvenile Growth Traits in the Conifer Torreya grandis as Revealed by Joint Linkage and Linkage Disequilibrium Mapping

A unifying experimental design for dissecting tree genomes

A unified DNA sequence and non‐DNA sequence mapping model of complex traits

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