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1. Unraveling the Complex Hybrid Ancestry and Domestication History of Cultivated Strawberry

Author

Hardigan, Michael A, Lorant, Anne, Pincot, Dominique DA, Feldmann, Mitchell J, Famula, Randi A, Acharya, Charlotte B, Lee, Seonghee, Verma, Sujeet, Whitaker, Vance M, Bassil, Nahla, Zurn, Jason, Cole, Glenn S, Bird, Kevin, Edger, Patrick P, and Knapp, Steven J

Subjects
Genetics, Human Genome, Chromosomes, Plant, Domestication, Fragaria, Genetic Variation, Genome, Plant, Hybridization, Genetic, Linkage Disequilibrium, Polyploidy, Selection, Genetic, polyploid, genome evolution, selection, nucleotide diversity, linkage disequilibrium, Fragaria, Biochemistry and Cell Biology, Evolutionary Biology
Abstract

Cultivated strawberry (Fragaria × ananassa) is one of our youngest domesticates, originating in early eighteenth-century Europe from spontaneous hybrids between wild allo-octoploid species (Fragaria chiloensis and Fragaria virginiana). The improvement of horticultural traits by 300 years of breeding has enabled the global expansion of strawberry production. Here, we describe the genomic history of strawberry domestication from the earliest hybrids to modern cultivars. We observed a significant increase in heterozygosity among interspecific hybrids and a decrease in heterozygosity among domesticated descendants of those hybrids. Selective sweeps were found across the genome in early and modern phases of domestication-59-76% of the selectively swept genes originated in the three less dominant ancestral subgenomes. Contrary to the tenet that genetic diversity is limited in cultivated strawberry, we found that the octoploid species harbor massive allelic diversity and that F. × ananassa harbors as much allelic diversity as either wild founder. We identified 41.8 M subgenome-specific DNA variants among resequenced wild and domesticated individuals. Strikingly, 98% of common alleles and 73% of total alleles were shared between wild and domesticated populations. Moreover, genome-wide estimates of nucleotide diversity were virtually identical in F. chiloensis,F. virginiana, and F. × ananassa (π = 0.0059-0.0060). We found, however, that nucleotide diversity and heterozygosity were significantly lower in modern F. × ananassa populations that have experienced significant genetic gains and have produced numerous agriculturally important cultivars.

Published
2021

2. Discovery of three loci increasing resistance to charcoal rot caused by Macrophomina phaseolina in octoploid strawberry

Author

Nelson, Jonathan R, Verma, Sujeet, Bassil, Nahla V, Finn, Chad E, Hancock, James F, Cole, Glenn S, Knapp, Steven J, and Whitaker, Vance M

Subjects
Biological Sciences, Genetics, Human Genome, Ascomycota, Chromosome Mapping, Disease Resistance, Fragaria, Phenotype, Plant Breeding, Plant Diseases, fruit breeding, GWAS, haplotype, multiparental population, pedigree-based analysis, QTL, Biochemistry and cell biology, Statistics
Abstract

Charcoal rot caused by Macrophomina phaseolinais an increasing economic problem in annualized strawberry production systems around the world. Currently there are no effective postfumigation chemical controls for managing charcoal rot, and no information is available on the genetic architecture of resistance to M. phaseolina in strawberry (Fragaria ×ananassa). In this study, three multiparental discovery populations and two validation populations were inoculated at planting and evaluated for mortality in three consecutive growing seasons. Genome-wide SNP genotyping and pedigree-based analysis with FlexQTL™ software were performed. Two large-effect quantitative trait loci (QTL) increasing charcoal rot resistance were discovered and validated in cultivated germplasm. FaRMp1 was located on linkage group 2A in the interval 20.4to 24.9 cM, while FaRMp2 was located on linkage group 4B in the interval 41.1to 61.2 cM. Together these QTLs explained 27% and 17% of the phenotypic variance in two discovery populations consisting of elite breeding germplasm. For both QTLs, the resistant allele showed some evidence of partial dominance, but no significant interaction was detected between the two loci. As the dosage of resistant alleles increased from 0 to 4 across the two QTLs, mortality decreased regardless of the combination of alleles.A third locus, FaRMp3 on 4D, was discovered in FVC 11-58, a reconstituted F.×ananassa originating from diverse F. virginiana and F. chiloensis accessions. This locus accounted for 44% of phenotypic variation in four segregating crosses. These findings will form the basis for DNA-informed breeding for resistance to charcoal rot in cultivated strawberry.

Published
2021

3. A roadmap for research in octoploid strawberry

Author

Whitaker, Vance M, Knapp, Steven J, Hardigan, Michael A, Edger, Patrick P, Slovin, Janet P, Bassil, Nahla V, Hytönen, Timo, Mackenzie, Kathryn K, Lee, Seonghee, Jung, Sook, Main, Dorrie, Barbey, Christopher R, and Verma, Sujeet

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Plant Biology, Horticultural Production, Generic health relevance, Agricultural genetics, Genome evolution, Plant breeding, Horticultural production, Plant biology
Abstract

The cultivated strawberry (Fragaria × ananassa) is an allo-octoploid species, originating nearly 300 years ago from wild progenitors from the Americas. Since that time the strawberry has become the most widely cultivated fruit crop in the world, universally appealing due to its sensory qualities and health benefits. The recent publication of the first high-quality chromosome-scale octoploid strawberry genome (cv. Camarosa) is enabling rapid advances in genetics, stimulating scientific debate and provoking new research questions. In this forward-looking review we propose avenues of research toward new biological insights and applications to agriculture. Among these are the origins of the genome, characterization of genetic variants, and big data approaches to breeding. Key areas of research in molecular biology will include the control of flowering, fruit development, fruit quality, and plant-pathogen interactions. In order to realize this potential as a global community, investments in genome resources must be continually augmented.

Published
2020

4. Disease Resistance Genetics and Genomics in Octoploid Strawberry

Author

Barbey, Christopher R, Lee, Seonghee, Verma, Sujeet, Bird, Kevin A, Yocca, Alan E, Edger, Patrick P, Knapp, Steven J, Whitaker, Vance M, and Folta, Kevin M

Subjects
Biological Sciences, Genetics, Biotechnology, Human Genome, Disease Resistance, Evolution, Molecular, Fragaria, Gene Expression Profiling, Genes, Plant, Genome, Plant, Genomics, Plant Diseases, Polyploidy, Quantitative Trait Loci, Species Specificity, Transcriptome, Strawberry, R-gene, eQTL, Subgenome Dominance, RenSeq, Biochemistry and cell biology, Statistics
Abstract

Octoploid strawberry (Fragaria ×ananassa) is a valuable specialty crop, but profitable production and availability are threatened by many pathogens. Efforts to identify and introgress useful disease resistance genes (R-genes) in breeding programs are complicated by strawberry's complex octoploid genome. Recently-developed resources in strawberry, including a complete octoploid reference genome and high-resolution octoploid genotyping, enable new analyses in strawberry disease resistance genetics. This study characterizes the complete R-gene collection in the genomes of commercial octoploid strawberry and two diploid ancestral relatives, and introduces several new technological and data resources for strawberry disease resistance research. These include octoploid R-gene transcription profiling, dN/dS analysis, expression quantitative trait loci (eQTL) analysis and RenSeq analysis in cultivars. Octoploid fruit eQTL were identified for 76 putative R-genes. R-genes from the ancestral diploids Fragaria vesca and Fragaria iinumae were compared, revealing differential inheritance and retention of various octoploid R-gene subtypes. The mode and magnitude of natural selection of individual F. ×ananassa R-genes was also determined via dN/dS analysis. R-gene sequencing using enriched libraries (RenSeq) has been used recently for R-gene discovery in many crops, however this technique somewhat relies upon a priori knowledge of desired sequences. An octoploid strawberry capture-probe panel, derived from the results of this study, is validated in a RenSeq experiment and is presented for community use. These results give unprecedented insight into crop disease resistance genetics, and represent an advance toward exploiting variation for strawberry cultivar improvement.

Published
2019

12. List of Contributors

Author

Abinash, V., primary, Agarwal, Tarun, additional, Ahamad, Mohd Imran, additional, Ajith, Gayathri, additional, Alharthi, Mathkar A., additional, Anandharamakrishnan, C., additional, Anis, Arfat, additional, Ansari, Shahid Pervez, additional, Antoniraj, M.G., additional, Banu, Nicoleta Doriana, additional, Behera, Haladhar, additional, Behera, Kiran Prava, additional, Biswas, Pratik, additional, Biswas, Rimi, additional, Bit, Arindam, additional, Borrelli, Mimi R., additional, Datta, Pallab, additional, Fawad, Ahmad, additional, Gawas, Pratiksha, additional, Ghime, Damodhar, additional, Ghosh, Prabir, additional, Goyal, Aditya S., additional, Gupta, Sweta, additional, Habibullah, S.K., additional, Harwate, Niraj, additional, Hettiarachchy, Navam, additional, Hoque, Monjurul, additional, Jerca, Florica Adriana, additional, Jerca, Valentin Victor, additional, Jin, Juhui, additional, Kar, Shantimoy, additional, Kim, Doman, additional, Kolluru, Viswanatha Chaitanya, additional, Kulantheveil, Senthilguru, additional, Lassalle, Verónica L., additional, Lim, Sangyong, additional, Luqman, Mohammad, additional, Maiti, Tapas Kumar, additional, Maity, Sourav, additional, Maji, Samarendra, additional, Makvandi, Pooyan, additional, Mallick, Sarada Prasanna, additional, Mohanty, Biswaranjan, additional, Mohanty, G., additional, Mok, Il-Kyoon, additional, Moses, J.A., additional, Mukherjee, Soma, additional, Nazare, Aishwarya, additional, Nedungadi, S.V., additional, Nguyen, Thi Thanh Hanh, additional, Nutalapati, Venkatramaiah, additional, Pal, Kunal, additional, Patel, Ashok R., additional, Patil, Umesh, additional, Qureshi, Dilshad, additional, Rahul, T., additional, Rodrigues, Fiona Concy, additional, Sahoo, B.K., additional, Santhosh, Ravichandran, additional, Sarkar, Angana, additional, Sarkar, Preetam, additional, Sathvik, A.S., additional, Satti, Angel J., additional, Sengupta, Aditya, additional, Shaikh, Hamid, additional, Srivastava, Rajesh K., additional, Suman, Dheerendra Kumar, additional, Sushant, P., additional, Syed, Irshaan, additional, Tan, Sheri-Ann, additional, Thakur, Goutam, additional, Verghese, Martha, additional, Verma, Sarika, additional, Verma, Sujeet Kumar, additional, and Vuppaladadium, Shanmuga Sharan Rathnam, additional

Published
2020
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13. List of contributors

Author

Abraham, Jayanthi, primary, Ajonina, Gordon, additional, Anand, Santosh, additional, Angami, T., additional, Anita, Dorothy D., additional, Ashok, Chhetri, additional, Assengze, Armand, additional, Baishya, Somorita, additional, Banik, Sheuli Kangsa, additional, Barik, Anwesha, additional, Basappa, Giridhara, additional, Behera, B.C., additional, Bitomo, Muriel, additional, Chatterjee, Ankita, additional, Choudhury, Manabendra Dutta, additional, Das, Swagat Kumar, additional, Devadatha, B., additional, Devi, Ponnuswamy Renuka, additional, Dibong, Didier, additional, Dundaiah, Bhagyalakshmi, additional, Gajula, Hari, additional, Gayathri, G.A., additional, Gopinath, Mamatha Madhugiri, additional, Kariyappa, Anupama Sindhghatta, additional, Kathiresan, K., additional, Kemajou, Jonas, additional, Kumar, Vadlapudi, additional, Kumari, Priyanka, additional, Lotlikar, Gargi, additional, Lukram, Shantikumar, additional, Mahalingam, Gayathri, additional, Mayanglambam, Chandrakumar Singh, additional, Mishra, R.R., additional, Mohanta, M.R., additional, Mohanty, Jayashree, additional, Moudingo, J-Hude, additional, Naik-Samant, Sanika, additional, Nathiya, R., additional, Ngathem, Taibangnganbi Chanu, additional, Panda, Manasa Kumar, additional, Pathak, Bhawana, additional, Pradhan, B.K., additional, Rajashekar, J., additional, Ramachandregowda, Sowbhagya, additional, Sahu, S.C., additional, Sannabommaji, Torankumar, additional, Sarkar, Angana, additional, Sarker, Satyajit, additional, Sarma, V. Venkateswara, additional, Sengupta, Ahana, additional, Singh, Amit Kumar, additional, Singh, Jitendra Kumar, additional, Singh, Mayanglambam Chandrakumar, additional, Singh, Siddhartha, additional, Singh, Yengkhom Disco, additional, Sridhar, Kandikere R., additional, Talukdar, Anupam Das, additional, Talukdar, Deepa Das, additional, Tekupalli, Ravikiran, additional, Thatoi, Hrudayanath, additional, Tomedi, Minette, additional, Usha, Rajamanickam, additional, Vaish, Supriya, additional, Venil, Chidambaram Kulandaisamy, additional, Verma, Sujeet Kumar, additional, Vijendra, Poornima D., additional, Wassouni, Amadou, additional, and Yengkhom, Disco Singh, additional

Published
2020
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24. A roadmap for research in octoploid strawberry

Author

Whitaker, Vance M., Knapp, Steven J., Hardigan, Michael A., Edger, Patrick P., Slovin, Janet P., Bassil, Nahla V., Hytönen, Timo, Mackenzie, Kathryn K., Lee, Seonghee, Jung, Sook, Main, Dorrie, Barbey, Christopher R., Verma, Sujeet, Viikki Plant Science Centre (ViPS), Department of Agricultural Sciences, and Organismal and Evolutionary Biology Research Programme

Subjects
FRUIT-DEVELOPMENT, DOWN-REGULATION, CONFERRING RESISTANCE, 415 Other agricultural sciences, FRAGARIAE RESISTANCE GENE, PLANT-GROWTH, AROMA COMPOUNDS, 414 Agricultural biotechnology, ABSCISIC-ACID, NEGATIVE REGULATOR, SCAR MARKERS, LINKAGE MAP
Abstract

The cultivated strawberry (Fragaria × ananassa) is an allo-octoploid species, originating nearly 300 years ago from wild progenitors from the Americas. Since that time the strawberry has become the most widely cultivated fruit crop in the world, universally appealing due to its sensory qualities and health benefits. The recent publication of the first high-quality chromosome-scale octoploid strawberry genome (cv. Camarosa) is enabling rapid advances in genetics, stimulating scientific debate and provoking new research questions. In this forward-looking review we propose avenues of research toward new biological insights and applications to agriculture. Among these are the origins of the genome, characterization of genetic variants, and big data approaches to breeding. Key areas of research in molecular biology will include the control of flowering, fruit development, fruit quality, and plant–pathogen interactions. In order to realize this potential as a global community, investments in genome resources must be continually augmented.

Published
2020

29. Discovery of three loci increasing resistance to charcoal rot caused by Macrophomina phaseolina in octoploid strawberry.

Author

Nelson, Jonathan R., Verma, Sujeet, Bassil, Nahla V., Finn, Chad E., Hancock, James F., Cole, Glenn S., Knapp, Steven J., and Whitaker, Vance M.

Subjects
*MACROPHOMINA phaseolina, *CHARCOAL, *PHENOTYPIC plasticity, *STRAWBERRIES, *PLANT mortality, *BROMOMETHANE, *PHENOTYPES, *LOCUS (Genetics)
Abstract

Charcoal rot caused by Macrophomina phaseolinais an increasing economic problem in annualized strawberry production systems around the world. Currently there are no effective postfumigation chemical controls for managing charcoal rot, and no information is available on the genetic architecture of resistance to M. phaseolina in strawberry (Fragaria ×ananassa). In this study, three multiparental discovery populations and two validation populations were inoculated at planting and evaluated for mortality in three consecutive growing seasons. Genome-wide SNP genotyping and pedigree-based analysis with FlexQTLTM software were performed. Two large-effect quantitative trait loci (QTL) increasing charcoal rot resistance were discovered and validated in cultivated germplasm. FaRMp1 was located on linkage group 2A in the interval 20.4to 24.9 cM, while FaRMp2 was located on linkage group 4B in the interval 41.1to 61.2 cM. Together these QTLs explained 27% and 17% of the phenotypic variance in two discovery populations consisting of elite breeding germplasm. For both QTLs, the resistant allele showed some evidence of partial dominance, but no significant interaction was detected between the two loci. As the dosage of resistant alleles increased from 0 to 4 across the two QTLs, mortality decreased regardless of the combination of alleles.A third locus, FaRMp3 on 4D, was discovered in FVC 11–58, a reconstituted F.)ananassa originating from diverse F. virginiana and F. chiloensis accessions. This locus accounted for 44% of phenotypic variation in four segregating crosses. These findings will form the basis for DNA-informed breeding for resistance to charcoal rot in cultivated strawberry. [ABSTRACT FROM AUTHOR]

Published
2021
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30. List of Contributors

Author

Abinash, V., Agarwal, Tarun, Ahamad, Mohd Imran, Ajith, Gayathri, Alharthi, Mathkar A., Anandharamakrishnan, C., Anis, Arfat, Ansari, Shahid Pervez, Antoniraj, M.G., Banu, Nicoleta Doriana, Behera, Haladhar, Behera, Kiran Prava, Biswas, Pratik, Biswas, Rimi, Bit, Arindam, Borrelli, Mimi R., Datta, Pallab, Fawad, Ahmad, Gawas, Pratiksha, Ghime, Damodhar, Ghosh, Prabir, Goyal, Aditya S., Gupta, Sweta, Habibullah, S.K., Harwate, Niraj, Hettiarachchy, Navam, Hoque, Monjurul, Jerca, Florica Adriana, Jerca, Valentin Victor, Jin, Juhui, Kar, Shantimoy, Kim, Doman, Kolluru, Viswanatha Chaitanya, Kulantheveil, Senthilguru, Lassalle, Verónica L., Lim, Sangyong, Luqman, Mohammad, Maiti, Tapas Kumar, Maity, Sourav, Maji, Samarendra, Makvandi, Pooyan, Mallick, Sarada Prasanna, Mohanty, Biswaranjan, Mohanty, G., Mok, Il-Kyoon, Moses, J.A., Mukherjee, Soma, Nazare, Aishwarya, Nedungadi, S.V., Nguyen, Thi Thanh Hanh, Nutalapati, Venkatramaiah, Pal, Kunal, Patel, Ashok R., Patil, Umesh, Qureshi, Dilshad, Rahul, T., Rodrigues, Fiona Concy, Sahoo, B.K., Santhosh, Ravichandran, Sarkar, Angana, Sarkar, Preetam, Sathvik, A.S., Satti, Angel J., Sengupta, Aditya, Shaikh, Hamid, Srivastava, Rajesh K., Suman, Dheerendra Kumar, Sushant, P., Syed, Irshaan, Tan, Sheri-Ann, Thakur, Goutam, Verghese, Martha, Verma, Sarika, Verma, Sujeet Kumar, and Vuppaladadium, Shanmuga Sharan Rathnam

Published
2021
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33. Pedigree-based analysis in a multiparental population of octoploid strawberry reveals QTL alleles conferring resistance to phytophthora cactorum

Author

Mangandi, Jozer, Verma, Sujeet, Osorio, Luis, Peres, Natalia A., van de Weg, Eric, Whitaker, Vance M., Mangandi, Jozer, Verma, Sujeet, Osorio, Luis, Peres, Natalia A., van de Weg, Eric, and Whitaker, Vance M.

Abstract

Understanding the genetic architecture of traits in breeding programs can be critical for making genetic progress. Important factors include the number of loci controlling a trait, allele frequencies at those loci, and allele effects in breeding germplasm. To this end, multiparental populations offer many advantages for quantitative trait locus (QTL) analyses compared to biparental populations. These include increased power for QTL detection, the ability to sample a larger number of segregating loci and alleles, and estimation of allele effects across diverse genetic backgrounds. Here, we investigate the genetic architecture of resistance to crown rot disease caused by Phytophthora cactorum in strawberry (Fragaria × ananassa), using connected full-sib families from a breeding population. Clonal replicates of > 1100 seedlings from 139 full-sib families arising from 61 parents were control-inoculated during two consecutive seasons. Subgenome-specific single nucleotide polymorphism (SNP) loci were mapped in allo-octoploid strawberry (2n = 8 × = 56), and FlexQTL software was utilized to perform a Bayesian, pedigree-based QTL analysis. A major locus on linkage group (LG) 7D, which we name FaRPc2, accounts for most of the genetic variation for resistance. Four predominant SNP haplotypes were detected in the FaRPc2 region, two of which are strongly associated with two different levels of resistance, suggesting the presence of multiple resistance alleles. The phenotypic effects of FaRPc2 alleles across trials and across numerous genetic backgrounds make this locus a highly desirable target for genetic improvement of resistance in cultivated strawberry.

Published
2017

37. FaRCa1: a major subgenome-specific locus conferring resistance to Colletotrichum acutatum in strawberry.

Author

Salinas, Natalia, Verma, Sujeet, Peres, Natalia, and Whitaker, Vance M.

Subjects
*COLLETOTRICHUM acutatum, *STRAWBERRIES, *CROP improvement, *FRUIT rots, *GERMPLASM
Abstract

Optimal strategies for genetic improvement in crops depend on accurate assessments of the genetic architecture of traits. The overall objective of the present study was to determine the genetic architecture of anthracnose fruit rot (AFR) resistance caused by the fungus Colletotrichum acutatum in the University of Florida strawberry (Fragaria × ananassa) breeding germplasm. In 2016–2017, 33 full-sib families resulting from crosses between parents with varying levels of AFR resistance were tested. In 2017–2018, six full-sib families resulting from putative heterozygous resistant parents and homozygous susceptible parents were tested. Additionally, a validation population consisting of 77 advanced selections and ten cultivars was tested in the second season. Inoculation was performed using a mixture of three local isolates of the C. acutatum species complex. Phenotypes were scored weekly, and genotyping was performed using the IStraw35 Affymetrix Axiom® SNP array. A pedigree-based QTL analysis was performed using FlexQTL™ software. A major resistance locus, which we name FaRCa1, was detected in both seasons with a peak located at 55–56 cM on LG 6B and explaining at least 50% of the phenotypic variation across trials and seasons. The resistant allele exhibited partial dominance in all trials. The FaRCa1 locus is distinct from the previously discovered Rca2 locus, which mapped to LG 7B. While Rca2 is effective against European isolates from pathogenicity group 2, FaRCa1 appears to confer resistance to isolates of pathogenicity group 1. [ABSTRACT FROM AUTHOR]

Published
2019
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38. Strawberry soluble solids QTL with inverse effects on yield

Author

Fan, Zhen, Verma, Sujeet, Lee, Hana, Jang, Yoon Jeong, Wang, Yu, Lee, Seonghee, and Whitaker, Vance M

Abstract

Sugars are the main drivers of strawberry sweetness, and understanding their genetic control is of critical importance for breeding. Large-scale genome-wide association studies were performed in two populations totaling 3399 individuals evaluated for soluble solids content (SSC) and fruit yield. Two stable quantitative trait loci (QTL) on chromosome 3B and 6A for SSC were identified. Favorable haplotypes at both QTL for SSC decreased yield, though optimal allelic combinations were identified with reduced impacts on yield. Metabolites in the starch and sucrose metabolism pathway were characterized and quantified for 23 contrasting genotypes in leaves, white fruit, and red fruit. Variations in sucrose concentrations/efflux indicated genetic variation underlying sucrose accumulation and transportation during fruit ripening. Integration of genome-wide association studies and expression quantitative locus mapping identified starch synthase 4 (FxaC_10g00830) and sugar transporter 2-like candidate genes (FxaC_21g51570) within the respective QTL intervals. These results will enable immediate applications in genomics-assisted breeding for flavor and further study of candidate genes underlying genetic variation of sugar accumulation in strawberry fruit.

Published
2024
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42. Development and preliminary evaluation of a 90 K Axiom® SNP array for the allo-octoploid cultivated strawberry Fragaria × ananassa

Author

Department of Agriculture (US), National Research Initiative (US), Ministerio de Ciencia e Innovación (España), Bassil, Nahla, Davis, T. M., Zhang, Hailong, Ficklin, Stephen, Mittmann, Mike, Webster, Teresa, Mahoney, Lise, Wood, David, Alperin, Elisabeth S., Rosyara, Umesh R., Koehorst-van Putten, Herma J. J., Monfort, Amparo, Sargent, Daniel J., Amaya, Iraida, Denoyes, Béatrice, Bianco, Luca, Dijk, Thijs van, Pirani, Ali, Iezzoni, Amy, Main, Dorrie, Peace, Cameron, Yang, Yilong, Whitaker, Vance M., Verma, Sujeet, Bellon, Laurent, Brew, Fiona, Herrera, Raul, Weg, Eric van de, Department of Agriculture (US), National Research Initiative (US), Ministerio de Ciencia e Innovación (España), Bassil, Nahla, Davis, T. M., Zhang, Hailong, Ficklin, Stephen, Mittmann, Mike, Webster, Teresa, Mahoney, Lise, Wood, David, Alperin, Elisabeth S., Rosyara, Umesh R., Koehorst-van Putten, Herma J. J., Monfort, Amparo, Sargent, Daniel J., Amaya, Iraida, Denoyes, Béatrice, Bianco, Luca, Dijk, Thijs van, Pirani, Ali, Iezzoni, Amy, Main, Dorrie, Peace, Cameron, Yang, Yilong, Whitaker, Vance M., Verma, Sujeet, Bellon, Laurent, Brew, Fiona, Herrera, Raul, and Weg, Eric van de

Abstract

[Background]: A high-throughput genotyping platform is needed to enable marker-assisted breeding in the allo-octoploid cultivated strawberry Fragaria × ananassa. Short-read sequences from one diploid and 19 octoploid accessions were aligned to the diploid Fragaria vesca ‘Hawaii 4’ reference genome to identify single nucleotide polymorphisms (SNPs) and indels for incorporation into a 90 K Affymetrix® Axiom® array. We report the development and preliminary evaluation of this array., [Results]: About 36 million sequence variants were identified in a 19 member, octoploid germplasm panel. Strategies and filtering pipelines were developed to identify and incorporate markers of several types: di-allelic SNPs (66.6%), multi-allelic SNPs (1.8%), indels (10.1%), and ploidy-reducing “haploSNPs” (11.7%). The remaining SNPs included those discovered in the diploid progenitor F. iinumae (3.9%), and speculative “codon-based” SNPs (5.9%). In genotyping 306 octoploid accessions, SNPs were assigned to six classes with Affymetrix’s “SNPolisher” R package. The highest quality classes, PolyHigh Resolution (PHR), No Minor Homozygote (NMH), and Off-Target Variant (OTV) comprised 25%, 38%, and 1% of array markers, respectively. These markers were suitable for genetic studies as demonstrated in the full-sib family ‘Holiday’ × ‘Korona’ with the generation of a genetic linkage map consisting of 6,594 PHR SNPs evenly distributed across 28 chromosomes with an average density of approximately one marker per 0.5 cM, thus exceeding our goal of one marker per cM., [Conclusions]: The Affymetrix IStraw90 Axiom array is the first high-throughput genotyping platform for cultivated strawberry and is commercially available to the worldwide scientific community. The array’s high success rate is likely driven by the presence of naturally occurring variation in ploidy level within the nominally octoploid genome, and by effectiveness of the employed array design and ploidy-reducing strategies. This array enables genetic analyses including generation of high-density linkage maps, identification of quantitative trait loci for economically important traits, and genome-wide association studies, thus providing a basis for marker-assisted breeding in this high value crop.

Published
2015

43. Development and preliminary evaluation of a 90 K Axiom® SNP array for the allo-octoploid cultivated strawberry Fragaria × ananassa

Author

Bassil, N.V., Davis, T.M., Zhang, Hailong, Ficklin, Stephen, Mittmann, Mike, Webster, Teresa, Mahoney, Lise, Wood, David, Alperin, E.S., Rosyara, U.R., Koehorst-vanc Putten, Herma, Monfort, Amparo, Sargent, D.J., Amaya, Iraida, Denoyes, Beatrice, Bianco, Luca, van Dijk, Thijs, Pirani, Ali, Iezzoni, Amy, Main, Dorrie, Peace, Cameron, Yang, Yilong, Whitaker, Vance, Verma, Sujeet, Bellon, Laurent, Brew, Fiona, Herrera, Raul, van de Weg, Eric, Bassil, N.V., Davis, T.M., Zhang, Hailong, Ficklin, Stephen, Mittmann, Mike, Webster, Teresa, Mahoney, Lise, Wood, David, Alperin, E.S., Rosyara, U.R., Koehorst-vanc Putten, Herma, Monfort, Amparo, Sargent, D.J., Amaya, Iraida, Denoyes, Beatrice, Bianco, Luca, van Dijk, Thijs, Pirani, Ali, Iezzoni, Amy, Main, Dorrie, Peace, Cameron, Yang, Yilong, Whitaker, Vance, Verma, Sujeet, Bellon, Laurent, Brew, Fiona, Herrera, Raul, and van de Weg, Eric

Abstract

A high-throughput genotyping platform is needed to enable marker-assisted breeding in the allo-octoploid cultivated strawberry Fragaria × ananassa. Short-read sequences from one diploid and 19 octoploid accessions were aligned to the diploid Fragaria vesca 'Hawaii 4' reference genome to identify single nucleotide polymorphisms (SNPs) and indels for incorporation into a 90 K Affymetrix® Axiom® array. We report the development and preliminary evaluation of this array. Results: About 36 million sequence variants were identified in a 19 member, octoploid germplasm panel. Strategies and filtering pipelines were developed to identify and incorporate markers of several types: di-allelic SNPs (66.6%), multi-allelic SNPs (1.8%), indels (10.1%), and ploidy-reducing "haploSNPs" (11.7%). The remaining SNPs included those discovered in the diploid progenitor F. iinumae (3.9%), and speculative "codon-based" SNPs (5.9%). In genotyping 306 octoploid accessions, SNPs were assigned to six classes with Affymetrix's "SNPolisher" R package. The highest quality classes, PolyHigh Resolution (PHR), No Minor Homozygote (NMH), and Off-Target Variant (OTV) comprised 25%, 38%, and 1% of array markers, respectively. These markers were suitable for genetic studies as demonstrated in the full-sib family 'Holiday' × 'Korona' with the generation of a genetic linkage map consisting of 6,594 PHR SNPs evenly distributed across 28 chromosomes with an average density of approximately one marker per 0.5 cM, thus exceeding our goal of one marker per cM. Conclusions: The Affymetrix IStraw90 Axiom array is the first high-throughput genotyping platform for cultivated strawberry and is commercially available to the worldwide scientific community. The array's high success rate is likely driven by the presence of naturally occurring variation in ploidy level within the nominally octoploid genome, and by effectiveness of the employed array design and ploidy-reducing strategies. This array enables genetic analyse

Published
2015

44. Development and preliminary evaluation of a 90 K Axiom® SNP array for the allo-octoploid cultivated strawberry Fragaria × ananassa

Author

Bassil, Nahla V, primary, Davis, Thomas M, additional, Zhang, Hailong, additional, Ficklin, Stephen, additional, Mittmann, Mike, additional, Webster, Teresa, additional, Mahoney, Lise, additional, Wood, David, additional, Alperin, Elisabeth S, additional, Rosyara, Umesh R, additional, Koehorst-vanc Putten, Herma, additional, Monfort, Amparo, additional, Sargent, Daniel J, additional, Amaya, Iraida, additional, Denoyes, Beatrice, additional, Bianco, Luca, additional, van Dijk, Thijs, additional, Pirani, Ali, additional, Iezzoni, Amy, additional, Main, Dorrie, additional, Peace, Cameron, additional, Yang, Yilong, additional, Whitaker, Vance, additional, Verma, Sujeet, additional, Bellon, Laurent, additional, Brew, Fiona, additional, Herrera, Raul, additional, and van de Weg, Eric, additional

Published
2015
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46. A Global Analysis of Soluble Solids Content in Strawberry

Author

Zurn, Jason D., Fikere, Mulusew, Verma, Sujeet, Amaya, Iraida, Del Rio, Pilar Munoz, Sanchez-Sevilla, Jose F., Cockerton, Helen, Harrison, Richard J., Mahoney, Lise L., Davis, Thomas M., Hancock, James F., Finn, Chad E., Mathey, Megan M., Neal, Jodi, Ko, Hian-Lien, Whitaker, Vance M., Hardner, Craig M., and Bassil, Nahla

47. Disease Resistance Genetics and Genomics in Octoploid Strawberry.

Author

Barbey, Christopher R., Seonghee Lee, Verma, Sujeet, Bird, Kevin A., Yocca, Alan E., Edger, Patrick P., Knapp, Steven J., Whitaker, Vance M., and Folta, Kevin M.

Subjects
*DISEASE resistance of plants, *STRAWBERRIES, *SPECIALTY crops, *GENETICS, *NATURAL selection, *GENOMICS
Abstract

Octoploid strawberry (Fragaria ·ananassa) is a valuable specialty crop, but profitable production and availability are threatened by many pathogens. Efforts to identify and introgress useful disease resistance genes (R-genes) in breeding programs are complicated by strawberry's complex octoploid genome. Recentlydeveloped resources in strawberry, including a complete octoploid reference genome and high-resolution octoploid genotyping, enable new analyses in strawberry disease resistance genetics. This study characterizes the complete R-gene collection in the genomes of commercial octoploid strawberry and two diploid ancestral relatives, and introduces several new technological and data resources for strawberry disease resistance research. These include octoploid R-gene transcription profiling, dN/dS analysis, expression quantitative trait loci (eQTL) analysis and RenSeq analysis in cultivars. Octoploid fruit eQTL were identified for 76 putative R-genes. R-genes from the ancestral diploids Fragaria vesca and Fragaria iinumae were compared, revealing differential inheritance and retention of various octoploid R-gene subtypes. The mode and magnitude of natural selection of individual F. ·ananassa R-genes was also determined via dN/dS analysis. R-gene sequencing using enriched libraries (RenSeq) has been used recently for R-gene discovery in many crops, however this technique somewhat relies upon a priori knowledge of desired sequences. An octoploid strawberry captureprobe panel, derived from the results of this study, is validated in a RenSeq experiment and is presented for community use. These results give unprecedented insight into crop disease resistance genetics, and represent an advance toward exploiting variation for strawberry cultivar improvement. [ABSTRACT FROM AUTHOR]

Published
2019
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48. Genome-wide association studies in a diverse strawberry collection unveil loci controlling agronomic and fruit quality traits.

Author

Muñoz P, Roldán-Guerra FJ, Verma S, Ruiz-Velázquez M, Torreblanca R, Oiza N, Castillejo C, Sánchez-Sevilla JF, and Amaya I

Subjects
Phenotype, Plant Breeding, Polymorphism, Single Nucleotide, Genetic Variation, Fragaria genetics, Fruit genetics, Genome-Wide Association Study, Quantitative Trait Loci
Abstract

Strawberries (Fragaria sp.) are cherished for their organoleptic properties and nutritional value. However, breeding new cultivars involves the simultaneous selection of many agronomic and fruit quality traits, including fruit firmness and extended postharvest life. The strawberry germplasm collection here studied exhibited extensive phenotypic variation in 26 agronomic and fruit quality traits across three consecutive seasons. Phenotypic correlations and principal component analysis revealed relationships among traits and accessions, emphasizing the impact of plant breeding on fruit weight and firmness to the detriment of sugar or vitamin C content. Genetic diversity analysis on 124 accessions using 44,408 markers denoted a population structure divided into six subpopulations still retaining considerable diversity. Genome-wide association studies for the 26 traits unveiled 121 significant marker-trait associations distributed across 95 quantitative trait loci (QTLs). Multiple associations were detected for fruit firmness, a key breeding target, including a prominent locus on chromosome 6A. The candidate gene FaPG1, controlling fruit softening and postharvest shelf life, was identified within this QTL region. Differential expression of FaPG1 confirmed its role as the primary contributor to natural variation in fruit firmness. A kompetitive allele-specific PCR assay based on the single nucleotide polymorphism (SNP) AX-184242253, associated with the 6A QTL, predicts a substantial increase in fruit firmness, validating its utility for marker-assisted selection. In essence, this comprehensive study provides insights into the phenotypic and genetic landscape of the strawberry collection and lays a robust foundation for propelling the development of superior strawberry cultivars through precision breeding., (© 2024 The Author(s). The Plant Genome published by Wiley Periodicals LLC on behalf of Crop Science Society of America.)

Published
2024
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49. Clarifying sub-genomic positions of QTLs for flowering habit and fruit quality in U.S. strawberry ( Fragaria × ananassa ) breeding populations using pedigree-based QTL analysis.

Author

Verma S, Zurn JD, Salinas N, Mathey MM, Denoyes B, Hancock JF, Finn CE, Bassil NV, and Whitaker VM

Abstract

The cultivated strawberry ( Fragaria × ananassa ) is consumed worldwide for its flavor and nutritional benefits. Genetic analysis of commercially important traits in strawberry are important for the development of breeding methods and tools for this species. Although several quantitative trait loci (QTL) have been previously detected for fruit quality and flowering traits using low-density genetic maps, clarity on the sub-genomic locations of these QTLs was missing. Recent discoveries in allo-octoploid strawberry genomics led to the development of the IStraw90 single-nucleotide polymorphism (SNP) array, enabling high-density genetic maps and finer resolution QTL analysis. In this study, breeder-specified traits were evaluated in the Eastern (Michigan) and Western (Oregon) United States for a common set of breeding populations during 2 years. Several QTLs were validated for soluble solids content (SSC), fruit weight (FWT), pH and titratable acidity (TA) using a pedigree-based QTL analysis approach. For fruit quality, a QTL for SSC on linkage group (LG) 6A, a QTL for FWT on LG 2BII, a QTL for pH on LG 4CII and two QTLs for TA on LGs 2A and 5B were detected. In addition, a large-effect QTL for flowering was detected at the distal end of LG 4A, coinciding with the FaPFRU locus. Marker haplotype analysis in the FaPFRU region indicated that the homozygous recessive genotype was highly predictive of seasonal flowering. SNP probes in the FaPFRU region may help facilitate marker-assisted selection for this trait., Competing Interests: The authors declare no conflict of interest.

Published
2017
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50. Pedigree-Based Analysis in a Multiparental Population of Octoploid Strawberry Reveals QTL Alleles Conferring Resistance to Phytophthora cactorum .

Author

Mangandi J, Verma S, Osorio L, Peres NA, van de Weg E, and Whitaker VM

Subjects
Breeding, Chromosome Mapping, Genetic Linkage, Genotype, Haplotypes, Host-Pathogen Interactions genetics, Linkage Disequilibrium, Pedigree, Phenotype, Polymorphism, Single Nucleotide, Quantitative Trait, Heritable, Reproducibility of Results, Alleles, Disease Resistance genetics, Fragaria genetics, Fragaria microbiology, Phytophthora, Plant Diseases genetics, Plant Diseases microbiology, Quantitative Trait Loci
Abstract

Understanding the genetic architecture of traits in breeding programs can be critical for making genetic progress. Important factors include the number of loci controlling a trait, allele frequencies at those loci, and allele effects in breeding germplasm. To this end, multiparental populations offer many advantages for quantitative trait locus (QTL) analyses compared to biparental populations. These include increased power for QTL detection, the ability to sample a larger number of segregating loci and alleles, and estimation of allele effects across diverse genetic backgrounds. Here, we investigate the genetic architecture of resistance to crown rot disease caused by Phytophthora cactorum in strawberry ( Fragaria × ananassa ), using connected full-sib families from a breeding population. Clonal replicates of > 1100 seedlings from 139 full-sib families arising from 61 parents were control-inoculated during two consecutive seasons. Subgenome-specific single nucleotide polymorphism (SNP) loci were mapped in allo-octoploid strawberry (2 n = 8 × = 56), and FlexQTL software was utilized to perform a Bayesian, pedigree-based QTL analysis. A major locus on linkage group (LG) 7D, which we name FaRPc2 , accounts for most of the genetic variation for resistance. Four predominant SNP haplotypes were detected in the FaRPc2 region, two of which are strongly associated with two different levels of resistance, suggesting the presence of multiple resistance alleles. The phenotypic effects of FaRPc2 alleles across trials and across numerous genetic backgrounds make this locus a highly desirable target for genetic improvement of resistance in cultivated strawberry., (Copyright © 2017 Mangandi et al.)

Published
2017
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