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199 results on '"Londo, Jason P"'

1. A super-pangenome of the North American wild grape species.

Author

Guarracino, Andrea, Garcia, Jadran, Figueroa-Balderas, Rosa, Massonnet, Mélanie, Kasuga, Takao, Londo, Jason, Garrison, Erik, Gaut, Brandon, Cochetel, Noé, Cantu, Dario, and Minio, Andrea

Subjects
Grapevine, Pan-GWAS, Super-pangenome, Vitis genus, Wild species, Genome, Plant, Vitis, Plant Breeding, Genomics, North America
Abstract

BACKGROUND: Capturing the genetic diversity of wild relatives is crucial for improving crops because wild species are valuable sources of agronomic traits that are essential to enhance the sustainability and adaptability of domesticated cultivars. Genetic diversity across a genus can be captured in super-pangenomes, which provide a framework for interpreting genomic variations. RESULTS: Here we report the sequencing, assembly, and annotation of nine wild North American grape genomes, which are phased and scaffolded at chromosome scale. We generate a reference-unbiased super-pangenome using pairwise whole-genome alignment methods, revealing the extent of the genomic diversity among wild grape species from sequence to gene level. The pangenome graph captures genomic variation between haplotypes within a species and across the different species, and it accurately assesses the similarity of hybrids to their parents. The species selected to build the pangenome are a great representation of the genus, as illustrated by capturing known allelic variants in the sex-determining region and for Pierces disease resistance loci. Using pangenome-wide association analysis, we demonstrate the utility of the super-pangenome by effectively mapping short reads from genus-wide samples and identifying loci associated with salt tolerance in natural populations of grapes. CONCLUSIONS: This study highlights how a reference-unbiased super-pangenome can reveal the genetic basis of adaptive traits from wild relatives and accelerate crop breeding research.

Published
2023

4. Multiple independent recombinations led to hermaphroditism in grapevine

Author

Zou, Cheng, Massonnet, Mélanie, Minio, Andrea, Patel, Sagar, Llaca, Victor, Karn, Avinash, Gouker, Fred, Cadle-Davidson, Lance, Reisch, Bruce, Fennell, Anne, Cantu, Dario, Sun, Qi, and Londo, Jason P

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Plant Biology, Horticultural Production, Evolution, Molecular, Flowers, Genotype, Recombination, Genetic, Vitis, grapevine domestication, flower sex evolution, recombination, hermaphroditism
Abstract

Hermaphroditic (perfect) flowers were a key trait in grapevine domestication, enabling a drastic increase in yields due to the efficiency of self-pollination in the domesticated grapevine (Vitis vinifera L. ssp. vinifera). In contrast, all extant wild Vitis species are dioecious, each plant having only male or female flowers. In this study, we identified the male (M) and female (f) haplotypes of the sex-determining region (SDR) in the wild grapevine species V. cinerea and confirmed the boundaries of the SDR. We also demonstrated that the SDR and its boundaries are precisely conserved across the Vitis genus using shotgun resequencing data of 556 wild and domesticated accessions from North America, East Asia, and Europe. A high linkage disequilibrium was found at the SDR in all wild grape species, while different recombination signatures were observed along the hermaphrodite (H) haplotype of 363 cultivated accessions, revealing two distinct H haplotypes, named H1 and H2. To further examine the H2 haplotype, we sequenced the genome of two grapevine cultivars, 'Riesling' and 'Chardonnay'. By reconstructing the first two H2 haplotypes, we estimated the divergence time between H1 and H2 haplotypes at ∼6 million years ago, which predates the domestication of grapevine (∼8,000 y ago). Our findings emphasize the important role of recombination suppression in maintaining dioecy in wild grape species and lend additional support to the hypothesis that at least two independent recombination events led to the reversion to hermaphroditism in grapevine.

Published
2021

6. Dormant Vines, Future Wines

Author

Kovalesska, A. P., Londo, Jason P, and New York Botanical Garden, LuEsther T. Mertz Library

Published
2018

7. Topological Data Analysis as a Morphometric Method: Using Persistent Homology to Demarcate a Leaf Morphospace.

Author

Li, Mao, An, Hong, Angelovici, Ruthie, Bagaza, Clement, Batushansky, Albert, Clark, Lynn, Coneva, Viktoriya, Donoghue, Michael, Edwards, Erika, Fajardo, Diego, Fang, Hui, Frank, Margaret, Gallaher, Timothy, Gebken, Sarah, Hill, Theresa, Jansky, Shelley, Kaur, Baljinder, Klahs, Phillip, Klein, Laura, Kuraparthy, Vasu, Londo, Jason, Migicovsky, Zoë, Miller, Allison, Mohn, Rebekah, Myles, Sean, Otoni, Wagner, Pires, J, Rieffer, Edmond, Schmerler, Sam, Spriggs, Elizabeth, Topp, Christopher, Van Deynze, Allen, Zhang, Kuang, Zhu, Linglong, Zink, Braden, and Chitwood, Daniel

Subjects
leaf shape, leaves, morphology, morphometrics, persistent homology, shape, topological data analysis, topology
Abstract

Current morphometric methods that comprehensively measure shape cannot compare the disparate leaf shapes found in seed plants and are sensitive to processing artifacts. We explore the use of persistent homology, a topological method applied as a filtration across simplicial complexes (or more simply, a method to measure topological features of spaces across different spatial resolutions), to overcome these limitations. The described method isolates subsets of shape features and measures the spatial relationship of neighboring pixel densities in a shape. We apply the method to the analysis of 182,707 leaves, both published and unpublished, representing 141 plant families collected from 75 sites throughout the world. By measuring leaves from throughout the seed plants using persistent homology, a defined morphospace comparing all leaves is demarcated. Clear differences in shape between major phylogenetic groups are detected and estimates of leaf shape diversity within plant families are made. The approach predicts plant family above chance. The application of a persistent homology method, using topological features, to measure leaf shape allows for a unified morphometric framework to measure plant form, including shapes, textures, patterns, and branching architectures.

Published
2018

8. Identification of Novel Quantitative Trait Loci Associated with Table Grape Fruit Quality Characteristics in a Segregating Population and Transferability of Existing Quality Markers

Author

de Sousa Moreira, Laise, primary, Clark, Matthew D., additional, Tabb, Amy, additional, Karn, Avi, additional, Londo, Jason P., additional, Zou, Cheng, additional, Sun, Qi, additional, van Zyl, Sonet, additional, Prins, Bernard, additional, DeLong, Jeff D., additional, Burhans, Alanna, additional, Yang, Hui-Ching, additional, and Naegele, Rachel P., additional

Published
2024
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9. NYUS.2: an automated machine learning prediction model for the large-scale real-time simulation of grapevine freezing tolerance in North America

Author

Wang, Hongrui, primary, Moghe, Gaurav D, additional, Kovaleski, Al P, additional, Keller, Markus, additional, Martinson, Timothy E, additional, Wright, A Harrison, additional, Franklin, Jeffrey L, additional, Hébert-Haché, Andréanne, additional, Provost, Caroline, additional, Reinke, Michael, additional, Atucha, Amaya, additional, North, Michael G, additional, Russo, Jennifer P, additional, Helwi, Pierre, additional, Centinari, Michela, additional, and Londo, Jason P, additional

Published
2023
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26. Contributions of the VitisGen2 project to grapevine breeding and genetics.

Author

Reisch, Bruce I., Cadle-Davidson, Lance, Ikeogu, Ugochukwu, Sacks, Gavin L., Londo, Jason P., and Martinson, Tim E.

Subjects
POWDERY mildew diseases, GENETICS, DOWNY mildew diseases, GRAPES, GENE mapping, NATURAL immunity, CULTIVARS
Abstract

The VitisGen projects (2011-2022) have improved the tools available for breeding new grapevine cultivars with regional adaptation, high quality, and disease resistance. VitisGen2 (the second project in the series) was a multi-state collaboration (USDA-Geneva, New York; University of California, Davis; USDA-Parlier, California; Cornell University; Missouri State University; University of Minnesota; South Dakota State University; Washington State University; North Dakota State University; and E&J Gallo, California) to develop improved genetic mapping technology; to identify useful DNA marker-trait associations; and to incorporate marker-assisted selection (MAS) into breeding programs. A novel genetic mapping platform (rhAmpSeq) now provides 2000 + markers that are transferable across the Vitis genus. rhAmpSeq has been used in California, New York, Missouri, and South Dakota to identify new QTL for powdery and downy mildew resistance. In addition, fruit/flower traits that would normally take years to phenotype have been associated with predictive markers accessible from seedling DNA (e.g. malate metabolism, anthocyanin acylation, bloom phenology and flower sex). Since 2011, the project has used MAS to screen thousands of grape seedlings from public breeding programs in the United States and has produced “RenStack” public domain lines to enable simultaneous access to 4 or 6 powdery mildew resistance loci from single source genotypes. High-throughput phenotyping for powdery and downy mildew resistance has been revolutionized with the Blackbird automated-imaging system powered by artificial intelligence for image analysis. Affordable DNA sequencing along with phenotyping innovations are transforming grapevine breeding. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Tannin phenotyping of the Vitaceae reveals a phylogenetic linkage of epigallocatechin in berries and leaves

Author

Brillouet, Jean-Marc, primary, Romieu, Charles, additional, Bacilieri, Roberto, additional, Nick, Peter, additional, Trias-Blasi, Anna, additional, Maul, Erika, additional, Solymosi, Katalin, additional, Teszlák, Peter, additional, Jiang, Jiang-Fu, additional, Sun, Lei, additional, Ortolani, Danielle, additional, Londo, Jason P, additional, Gutierrez, Ben, additional, Prins, Bernard, additional, Reynders, Marc, additional, Van Caekenberghe, Frank, additional, Maghradze, David, additional, Marchal, Cecile, additional, Sultan, Amir, additional, Thomas, Jean-Francois, additional, Scherberich, Daniel, additional, Fulcrand, Helene, additional, Roumeas, Laurent, additional, Billerach, Guillaume, additional, Salimov, Vugar, additional, Musayev, Mirza, additional, Ejaz Ul Islam Dar, Muhammad, additional, Peltier, Jean-Benoit, additional, and Grisoni, Michel, additional

Published
2022
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31. Tannin phenotyping of the Vitaceae reveals a phylogenetic linkage of epigallocatechin in berries and leaves

Author

Brillouet, Jean-Marc, Romieu, Charles, Bacilieri, Roberto, Nick, Peter, Trias-Blasi, Anna, Maul, Erika, Solymosi, Katalin, Teszlák, Peter, Jiang, Jiang-Fu, Sun, Lei, Ortolani, Danielle, Londo, Jason P., Gutierrez, Ben, Prins, Bernard, Reynders, Marc, Van Caekenberghe, Frank, Maghradze, David, Marchal, Cécile, Sultan, Amir, Thomas, Jean-Francois, Scherberich, Daniel, Fulcrand, Hélène, Roumeas, Laurent, Billerach, Guillaume, Salimov, Vugar, Musayev, Mirza, Ejaz Ul Islam Dar, Muhammad, Peltier, Jean-Benoît, Grisoni, Michel, Brillouet, Jean-Marc, Romieu, Charles, Bacilieri, Roberto, Nick, Peter, Trias-Blasi, Anna, Maul, Erika, Solymosi, Katalin, Teszlák, Peter, Jiang, Jiang-Fu, Sun, Lei, Ortolani, Danielle, Londo, Jason P., Gutierrez, Ben, Prins, Bernard, Reynders, Marc, Van Caekenberghe, Frank, Maghradze, David, Marchal, Cécile, Sultan, Amir, Thomas, Jean-Francois, Scherberich, Daniel, Fulcrand, Hélène, Roumeas, Laurent, Billerach, Guillaume, Salimov, Vugar, Musayev, Mirza, Ejaz Ul Islam Dar, Muhammad, Peltier, Jean-Benoît, and Grisoni, Michel

Abstract

Background and Aims: Condensed tannins, responsible for berry and wine astringency, may have been selected during grapevine domestication. This work examines the phylogenetic distribution of condensed tannins throughout the Vitaceae phylogenetic tree. Methods: Green berries and mature leaves of representative true-to-type members of the Vitaceae were collected before 'véraison', freeze-dried and pulverized, and condensed tannins were measured following depolymerization by nucleophilic addition of 2-mercaptoethanol to the C4 of the flavan-3-ol units in an organic acidic medium. Reaction products were separated and quantified by ultrahigh pressure liquid chromatography/diode array detection/mass spectrometry. Key Results and Conclusions: The original ability to incorporate epigallocatechin (EGC) into grapevine condensed tannins was lost independently in both the American and Eurasian/Asian branches of the Vitaceae, with exceptional cases of reversion to the ancestral EGC phenotype. This is particularly true in the genus Vitis, where we now find two radically distinct groups differing with respect to EGC content. While Vitis species from Asia are void of EGC, 50 % of the New World Vitis harbour EGC. Interestingly, the presence of EGC is tightly coupled with the degree of leaf margin serration. Noticeably, the rare Asian EGC-forming species are phylogenetically close to Vitis vinifera, the only remnant representative of Vitis in Eurasia. Both the wild ancestral V. vinifera subsp. sylvestris as well as the domesticated V. vinifera subsp. sativa can accumulate EGC and activate galloylation biosynthesis that compete for photoassimilates and reductive power.

Published
2022

32. Berry Anthocyanin, Acid, and Volatile Trait Analyses in a Grapevine-Interspecific F2 Population Using an Integrated GBS and rhAmpSeq Genetic Map

Author

Alahakoon, Dilmini, primary, Fennell, Anne, additional, Helget, Zachary, additional, Bates, Terry, additional, Karn, Avinash, additional, Manns, David, additional, Mansfield, Anna Katharine, additional, Reisch, Bruce I., additional, Sacks, Gavin, additional, Sun, Qi, additional, Zou, Cheng, additional, Cadle-Davidson, Lance, additional, and Londo, Jason P., additional

Published
2022
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36. Multi-dimensional leaf phenotypes reflect root system genotype in grafted grapevine over the growing season

Author

Harris, Zachary N, primary, Awale, Mani, additional, Bhakta, Niyati, additional, Chitwood, Daniel H, additional, Fennell, Anne, additional, Frawley, Emma, additional, Klein, Laura L, additional, Kovacs, Laszlo G, additional, Kwasniewski, Misha, additional, Londo, Jason P, additional, Ma, Qin, additional, Migicovsky, Zoë, additional, Swift, Joel F, additional, and Miller, Allison J, additional

Published
2021
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42. Composite modeling of leaf shape along shoots discriminatesVitisspecies better than individual leaves

Author

Bryson, Abigail E., primary, Wilson Brown, Maya, additional, Mullins, Joey, additional, Dong, Wei, additional, Bahmani, Keivan, additional, Bornowski, Nolan, additional, Chiu, Christina, additional, Engelgau, Philip, additional, Gettings, Bethany, additional, Gomezcano, Fabio, additional, Gregory, Luke M., additional, Haber, Anna C., additional, Hoh, Donghee, additional, Jennings, Emily E., additional, Ji, Zhongjie, additional, Kaur, Prabhjot, additional, Kenchanmane Raju, Sunil K., additional, Long, Yunfei, additional, Lotreck, Serena G., additional, Mathieu, Davis T., additional, Ranaweera, Thilanka, additional, Ritter, Eleanore J., additional, Sadohara, Rie, additional, Shrote, Robert Z., additional, Smith, Kaila E., additional, Teresi, Scott J., additional, Venegas, Julian, additional, Wang, Hao, additional, Wilson, McKena L., additional, Tarrant, Alyssa R., additional, Frank, Margaret H., additional, Migicovsky, Zoë, additional, Kumar, Jyothi, additional, VanBuren, Robert, additional, Londo, Jason P., additional, and Chitwood, Daniel H., additional

Published
2020
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43. Root system influence on high dimensional leaf phenotypes over the grapevine growing season

Author

Harris, Zachary N., primary, Klein, Laura L., additional, Awale, Mani, additional, Swift, Joel F., additional, Migicovsky, Zoë, additional, Bhakta, Niyati, additional, Frawley, Emma, additional, Chitwood, Daniel H., additional, Fennell, Anne, additional, Kovacs, Laszlo G., additional, Kwasniewski, Misha, additional, Londo, Jason P., additional, Ma, Qin, additional, and Miller, Allison J., additional

Published
2020
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