Insights Into the Genetic Basis of Blueberry Fruit-Related Traits Using Diploid and Polyploid Models in a GWAS Context

Ferrão, Luís Felipe Ventorim; Benevenuto, Juliana; Oliveira, Ivone de Bem; Cellon, Catherine; Olmstead, James W.; Kirst, Matias; Resende, Marcio F. R.; Muñoz, Patricio

doi:10.3389/fevo.2018.00107

Cited by 60 publications

(97 citation statements)

References 92 publications

(118 reference statements)

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“…After filtering a total of 85,973 SNP were used in the GS analysis. Further information regarding population composition and genotyping approach were described in Ferrão et al (2018). The genotypes for the diploid calling were coded as 0 ( AA ), 1 ( AB ), or 2 ( BB ).…”

Section: Methodsmentioning

confidence: 99%

Genomic prediction of autotetraploids; influence of relationship matrices, allele dosage, and continuous genotyping calls in the phenotype prediction

Oliveira

Resende

Ferrao

et al. 2018

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27Estimation of allele dosage in autopolyploids is challenging and current methods 28 often result in the misclassification of genotypes. Here we propose and compare the use of 29 next generation sequencing read depth as continuous parameterization for autotetraploid 30 genomic prediction of breeding values, using blueberry (Vaccinium corybosum spp.) as a 31 model. Additionally, we investigated the influence of different sources of information to 32 build relationship matrices in phenotype prediction; no relationship, pedigree, and genomic 33 information, considering either diploid or tetraploid parameterizations. A real breeding 34 population composed of 1,847 individuals was phenotyped for eight yield and fruit quality 35 traits over two years. Analyses were based on extensive pedigree (since 1908) and high-36 density marker data (86K markers). Our results show that marker-based matrices can yield 37 significantly better prediction than pedigree for most of the traits, based on model fitting and 38 expected genetic gain. Continuous genotypic based models performed as well as the current 39 best models and presented a significantly better goodness-of-fit for all traits analyzed. This 40 approach also reduces the computational time required for marker calling and avoids 41 problems associated with misclassification of genotypic classes when assigning dosage in 42 polyploid species. Accuracies are encouraging for application of genomic selection (GS) for 43 blueberry breeding. Conservatively, GS could reduce the time for cultivar release by three 44 years. GS could increase the genetic gain per cycle by 86% on average when compared to 45 phenotypic selection, and 32% when compared with pedigree-based selection.46 47 48 Polyploidy events are not an exception in plants, as about 70% of Angiosperms and 53 95% of Pteridophytes underwent at least one polyploidization event (Soltis and Soltis 1999). 54 Polyploids are normally grouped into two categories, autopolyploids and allopolyploids, but 55 intermediate forms are also possible, such as segmental allopolyploids (Spoelhof et al. 2017). 56 Thresholds for polyploid classification have been controversial, but following the general 57 taxonomic definition, autopolyploids arise from within-species whole genome duplication, 58 and allopolyploids arise from whole genome duplication prior to or after an inter-specific 59 hybridization event (Soltis et al. 2007). 60 Because speciation via ploidy increase can generate new phenotypic variability, this 61 phenomenon is considered a powerful evolutionary source (Hieter and Griffiths 1999; Soltis 62 et al. 2016). Despite the important role of polyploidization in plant evolution, its effects on 63 inheritance of many agronomic traits and population genetics are still poorly understood 64 when compared with diploid species (Dufresne et al. 2014). This especially holds true for 65 autopolyploids. The complex nature of autopolyploid genetics is due to the presence of 66 genotypes with higher allele dosage than diploids, larger number ...

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Section: Methodsmentioning

confidence: 99%

Genomic prediction of autotetraploids; influence of relationship matrices, allele dosage, and continuous genotyping calls in the phenotype prediction

Oliveira

Resende

Ferrao

et al. 2018

Preprint

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“…Most of the genetic studies in polyploid species simplify the data to use diploid models inducing errors as under‐ or overestimating the real genetic control of important traits (Dufresne et al, 2014), as observed in the autotetraploid blueberry (Ferrão et al, 2018) and in the allotetraploid clover (Inostroza et al, 2018). However, Urochloa spp.…”

Section: Discussionmentioning

confidence: 99%

“…However, little is known about the consequences of using these models on the GWAS results compared with the use of adequate allele dosage, especially considering Urochloa spp. Ferrão et al (2018) performing GWAS analysis in autotetraploid blueberries ( Vaccinium corymbosum L.) verified that the importance of tetraploid models varies with traits and the use of diploid models has hindered the detection of single nucleotide polymorphism (SNP)–trait associations in this autotetraploid species. In turn, Inostroza et al (2018) only detected significant SNP–trait association in the allotetraploid clover ( Trifolium repens L.) when GWAS analyses were performed with tetraploid genetic models, showing the importance of considering the correct allele dosage.…”

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Association Mapping Considering Allele Dosage: An Example of Forage Traits in an Interspecific Segmental Allotetraploid Urochloa spp. Panel

et al. 2019

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The breeding process in tropical segmental allopolyploid forage Urochloa is challenging due to the complex genetic control of the traits. Knowledge about genes associated with forage traits, expressed in the different cutting seasons, are extremely useful to support breeding programs and development of new cultivars. Thus, the aims of our study were (i) to identify genomic regions related to forage traits through genome‐wide association studies (GWAS), and (ii) to verify the influence of allele dosage on these results. A panel of 272 genotypes of Urochloa spp. [U. brizantha (Hoscht. ex A. Rich.) R. Webster × U. ruziziensis (Hoscht. ex A. Rich.) R. Webster] was evaluated in both the wet and dry seasons. The GWAS analyses were performed with 26,535 single nucleotide polymorphisms (SNPs) obtained by genotyping‐by‐sequencing (GBS) using diploid and tetraploid allele dosage configurations. Furthermore, we evaluated scenarios including additive, dominance, and epistatic effects. Seven candidate genomic regions associated with the main forage traits of Urochloa spp. were identified. The importance of the diploid and tetraploid molecular configuration in GWAS analyses for segmental allopolyploid species was demonstrated to identify the genomic behavior of important regions. Results demonstrated that it is possible to identify the same regions using both ploidy configurations; however, in some cases, the allele substitution effect can be biased mainly for regions with dominance and epistatic effects. Finally, this study contributes to the understanding of genetic control of tropical forage traits and genomics to accelerate the selection and reduce the cost to release new cultivars.

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“…Firmness is a genetically controlled trait that has long been among the focus of blueberry breeding programs (Edwards et al, 1974; Cappai et al, 2018; Cellon et al, 2018; Ferrão et al, 2018). It is also a desirable trait across the whole market chain: for growers, less fruit is discarded due to physical damage; for retailers, firmer berries have a longer shelf life; and for consumers, firm texture positively correlates to liking (Mehra et al, 2013; Olmstead and Finn, 2014; Yu et al, 2014; Gilbert et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

High-Resolution Linkage Map and QTL Analyses for Machine Harvest Traits in Autotetraploid Blueberry

Cappai

Amadeu

Benevenuto

et al. 2020

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2Blueberry (Vacciunium corymbosum and hybrids) is an autotetraploid crop whose commercial 3 relevance has been growing steadily during the last twenty years. However, the ever-increasing 4 cost of labor for hand-picking blueberry is one main constraint in competitive marketing of the 5 fruit. Machine harvestability is, therefore, a key trait for the blueberry industry. Understanding 6 the genetic architecture of traits through quantitative trait locus (QTL) mapping is the first step 7 towards implementation of molecular breeding for faster genetic gains. Despite recent advances 8 in software development for autotetraploid genetic mapping, a high-resolution map is still not 9 available for blueberry. In this study, we crafted a map for autotetraploid low-chill highbush 10 blueberry containing 11,292 SNP markers and a total size of 1,953.97 cM (average density of 11 5.78 markers/cM). This map was subsequently used to perform QTL analyses for traits relevant 12 to machine harvesting: firmness, firmness retention, and fruit detachment force. Significant 13 QTL peaks were identified for all the traits. The QTL intervals were further explored for putative 14 candidate genes. Genes related to cell wall remodeling were highlighted in the firmness and 15 firmness retention intervals. For fruit detachment force, transcription factors involved in fruit 16 abscission were detected. Altogether, our findings provide the basis for future fine-mapping and 17 molecular breeding efforts for machine harvesting in blueberry. 18 Keywords: Vaccinium, southern highbush blueberry, firmness, detachment force, polyploid 19 20chromosomal alterations are not only tolerated by plant genomes, but can also drive evolution, for example, 21 promoting speciation (Adams and Wendel, 2005). Polyploid organisms are classified as either allopolyploids 22 or autopolyploids, depending on the degree of divergence between their subgenomes (Brubaker et al., 1999). 23 Autopolyploids, such as blueberry (Vaccinium corymbosum L.), potato (Solanum tuberosum L.), and alfalfa 24 (Medicago sativa L.), contain multiple copies of the same chromosome set, which can all pair and exchange 25 1 Cappai et al. QTL Map for Blueberry Harvest genetic material during gamete formation. In contrast, allopolyploids, such as wheat (Triticum aestivum 26 L.), coffee (Coffea arabica L.), and strawberry (Fragaria ananassa Duch.) contain two or more divergent 27 genomes, which usually show bivalent pairing and have disomic inheritance, like diploid organisms. 28 While in diploid systems the study of allelic inheritance is relatively simple, polysomic inheritance in 29 autopolyploids increases the number of possible genetic configurations and impacts downstream genetic 30 analyses, including linkage map construction and quantitative trait loci (QTL) mapping (Bever and Felber, 31 1992). 32 QTL mapping is the association study between phenotypic and genetic variants usually performed by 33 tracking recombination events of the possible QTL along chromosomes (Broman and Sen, 2009). In 34 b...

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Insights Into the Genetic Basis of Blueberry Fruit-Related Traits Using Diploid and Polyploid Models in a GWAS Context

Cited by 60 publications

References 92 publications

Genomic prediction of autotetraploids; influence of relationship matrices, allele dosage, and continuous genotyping calls in the phenotype prediction

Genomic prediction of autotetraploids; influence of relationship matrices, allele dosage, and continuous genotyping calls in the phenotype prediction

Association Mapping Considering Allele Dosage: An Example of Forage Traits in an Interspecific Segmental Allotetraploid Urochloa spp. Panel

High-Resolution Linkage Map and QTL Analyses for Machine Harvest Traits in Autotetraploid Blueberry

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