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1. The genetic architecture of repeated local adaptation to climate in distantly related plants

Author

Whiting, James R., Booker, Tom R., Rougeux, Clément, Lind, Brandon M., Singh, Pooja, Lu, Mengmeng, Huang, Kaichi, Whitlock, Michael C., Aitken, Sally N., Andrew, Rose L., Borevitz, Justin O., Bruhl, Jeremy J., Collins, Timothy L., Fischer, Martin C., Hodgins, Kathryn A., Holliday, Jason A., Ingvarsson, Pär K., Janes, Jasmine K., Khandaker, Momena, Koenig, Daniel, Kreiner, Julia M., Kremer, Antoine, Lascoux, Martin, Leroy, Thibault, Milesi, Pascal, Murray, Kevin D., Pyhäjärvi, Tanja, Rellstab, Christian, Rieseberg, Loren H., Roux, Fabrice, Stinchcombe, John R., Telford, Ian R. H., Todesco, Marco, Tyrmi, Jaakko S., Wang, Baosheng, Weigel, Detlef, Willi, Yvonne, Wright, Stephen I., Zhou, Lecong, and Yeaman, Sam

Published
2024
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3. Toward genomic selection in Pinus taeda: Integrating resources to support array design in a complex conifer genome

Author

Caballero, Madison, Lauer, Edwin, Bennett, Jeremy, Zaman, Sumaira, McEvoy, Susan, Acosta, Juan, Jackson, Colin, Townsend, Laura, Eckert, Andrew, Whetten, Ross W, Loopstra, Carol, Holliday, Jason, Mandal, Mihir, Wegrzyn, Jill L, and Isik, Fikret

Subjects
Agricultural, Veterinary and Food Sciences, Crop and Pasture Production, Human Genome, Genetics, Biotechnology, exome capture, genomic selection, genotype array, genotyping-by-sequencing, loblolly pine, Pinus taeda, variant detection, genotyping‐by‐sequencing, Crop and pasture production
Abstract

PremiseAn informatics approach was used for the construction of an Axiom genotyping array from heterogeneous, high-throughput sequence data to assess the complex genome of loblolly pine (Pinus taeda).MethodsHigh-throughput sequence data, sourced from exome capture and whole genome reduced-representation approaches from 2698 trees across five sequence populations, were analyzed with the improved genome assembly and annotation for the loblolly pine. A variant detection, filtering, and probe design pipeline was developed to detect true variants across and within populations. From 8.27 million variants, a total of 642,275 were evaluated and 423,695 of those were screened across a range-wide population.ResultsThe final informatics and screening approach delivered an Axiom array representing 46,439 high-confidence variants to the forest tree breeding and genetics community. Based on the annotated reference genome, 34% were located in or directly upstream or downstream of genic regions.DiscussionThe Pita50K array represents a genome-wide resource developed from sequence data for an economically important conifer, loblolly pine. It uniquely integrates independent projects that assessed trees sampled across the native range. The challenges associated with the large and repetitive genome are addressed in the development of this resource.

Published
2021

4. Exome resequencing and GWAS for growth, ecophysiology, and chemical and metabolomic composition of wood of Populus trichocarpa.

Author

Guerra, Fernando P, Suren, Haktan, Holliday, Jason, Richards, James H, Fiehn, Oliver, Famula, Randi, Stanton, Brian J, Shuren, Richard, Sykes, Robert, Davis, Mark F, and Neale, David B

Subjects
Populus, Plant Leaves, Carbon, Nitrogen, Lignin, Genetic Markers, Quantitative Trait, Heritable, Polymorphism, Single Nucleotide, Genome, Plant, Wood, California, Metabolic Networks and Pathways, Genome-Wide Association Study, Metabolome, Whole Exome Sequencing, Cellulose, GWAS, Growth, Sequence capture, Stable isotopes, Wood metabolome, Quantitative Trait, Heritable, Polymorphism, Single Nucleotide, Genome, Plant, Human Genome, Genetics, Biological Sciences, Medical and Health Sciences, Information and Computing Sciences, Bioinformatics
Abstract

BackgroundPopulus trichocarpa is an important forest tree species for the generation of lignocellulosic ethanol. Understanding the genomic basis of biomass production and chemical composition of wood is fundamental in supporting genetic improvement programs. Considerable variation has been observed in this species for complex traits related to growth, phenology, ecophysiology and wood chemistry. Those traits are influenced by both polygenic control and environmental effects, and their genome architecture and regulation are only partially understood. Genome wide association studies (GWAS) represent an approach to advance that aim using thousands of single nucleotide polymorphisms (SNPs). Genotyping using exome capture methodologies represent an efficient approach to identify specific functional regions of genomes underlying phenotypic variation.ResultsWe identified 813 K SNPs, which were utilized for genotyping 461 P. trichocarpa clones, representing 101 provenances collected from Oregon and Washington, and established in California. A GWAS performed on 20 traits, considering single SNP-marker tests identified a variable number of significant SNPs (p-value

Published
2019

5. A genome-guided strategy for climate resilience in American chestnut restoration populations

Author

Sandercock, Alexander M., Westbrook, Jared W., Zhang, Qian, Holliday, Jason A., Sandercock, Alexander M., Westbrook, Jared W., Zhang, Qian, and Holliday, Jason A.

Abstract

American chestnut (Castanea dentata) is a deciduous tree species of eastern North America that was decimated by the introduction of the chestnut blight fungus (Cryphonectria parasitica) in the early 20th century. Although millions of American chestnuts survive as root collar sprouts, these trees rarely reproduce. Thus, the species is considered functionally extinct. American chestnuts with improved blight resistance have been developed through interspecific hybridization followed by conspecific backcrossing, and by genetic engineering. Incorporating adaptive genomic diversity into these backcross families and transgenic lines is important for restoring the species across broad climatic gradients. To develop sampling recommendations for ex situ conservation of wild adaptive genetic variation, we coupled whole-genome resequencing of 384 stump sprouts with genotype–environment association analyses and found that the species range can be subdivided into three seed zones characterized by relatively homogeneous adaptive allele frequencies. We estimated that 21 to 29 trees per seed zone will need to be conserved to capture most extant adaptive diversity. We also resequenced the genomes of 269 backcross trees to understand the extent to which the breeding program has already captured wild adaptive diversity, and to estimate optimal reintroduction sites for specific families on the basis of their adaptive portfolio and future climate projections. Taken together, these results inform the development of an ex situ germplasm conservation and breeding plan to target blight-resistant breeding populations to specific environments and provides a blueprint for developing restoration plans for other imperiled tree species.

Published
2024

6. Genomic insights into hybrid zone formation: The role of climate, landscape, and demography in the emergence of a novel hybrid lineage.

Author

Bolte, Constance E., Phannareth, Tommy, Zavala‐Paez, Michelle, Sutara, Brianna N., Can, Muhammed F., Fitzpatrick, Matthew C., Holliday, Jason A., Keller, Stephen R., and Hamilton, Jill A.

Subjects
HYBRID zones, CHLOROPLAST DNA, BLACK cottonwood, WHOLE genome sequencing, GENE flow, PHYLOGEOGRAPHY, LANDSCAPES, GEOGRAPHY
Abstract

Population demographic changes, alongside landscape, geographic and climate heterogeneity, can influence the timing, stability and extent of introgression where species hybridise. Thus, quantifying interactions across diverged lineages, and the relative contributions of interspecific genetic exchange and selection to divergence at the genome‐wide level is needed to better understand the drivers of hybrid zone formation and maintenance. We used seven latitudinally arrayed transects to quantify the contributions of climate, geography and landscape features to broad patterns of genetic structure across the hybrid zone of Populus trichocarpa and P. balsamifera and evaluated the demographic context of hybridisation over time. We found genetic structure differed among the seven transects. While ancestry was structured by climate, landscape features influenced gene flow dynamics. Demographic models indicated a secondary contact event may have influenced contemporary hybrid zone formation with the origin of a putative hybrid lineage that inhabits regions with higher aridity than either of the ancestral groups. Phylogenetic relationships based on chloroplast genomes support the origin of this hybrid lineage inferred from demographic models based on the nuclear data. Our results point towards the importance of climate and landscape patterns in structuring the contact zones between P. trichocarpa and P. balsamifera and emphasise the value whole genome sequencing can have to advancing our understanding of how neutral processes influence divergence across space and time. [ABSTRACT FROM AUTHOR]

Published
2024
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8. “A reference genome assembly and adaptive trait analysis of Castanea mollissima ‘Vanuxem,’ a source of resistance to chestnut blight in restoration breeding”

Author

Staton, Margaret, Addo-Quaye, Charles, Cannon, Nathaniel, Yu, Jiali, Zhebentyayeva, Tetyana, Huff, Matthew, Islam-Faridi, Nurul, Fan, Shenghua, Georgi, Laura L., Nelson, C. Dana, Bellis, Emily, Fitzsimmons, Sara, Henry, Nathan, Drautz-Moses, Daniela, Noorai, Rooksana E., Ficklin, Stephen, Saski, Christopher, Mandal, Mihir, Wagner, Tyler K., Zembower, Nicole, Bodénès, Catherine, Holliday, Jason, Westbrook, Jared, Lasky, Jesse, Hebard, Frederick V., Schuster, Stephan C., Abbott, Albert G., and Carlson, John E.

Published
2020
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9. Leveraging whole‐genome sequencing to estimate telomere length in plants.

Author

Zavala‐Paez, Michelle, Holliday, Jason, and Hamilton, Jill A.

Subjects
*TELOMERES, *PLANT genomes, *NUCLEOTIDE sequencing, *ABIOTIC environment, *PLANT conservation, *POLYMERASE chain reaction, *PLANT breeding
Abstract

Changes in telomere length are increasingly used to indicate species' response to environmental stress across diverse taxa. Despite this broad use, few studies have explored telomere length in plants. Thus, evaluation of new approaches for measuring telomeres in plants is needed. Rapid advances in sequencing approaches and bioinformatic tools now allow estimation of telomere content from whole‐genome sequencing (WGS) data, a proxy for telomere length. While telomere content has been quantified extensively using quantitative polymerase chain reaction (qPCR) and WGS in humans, no study to date has compared the effectiveness of WGS in estimating telomere length in plants relative to qPCR approaches. In this study, we use 100 Populus clones re‐sequenced using short‐read Illumina sequencing to quantify telomere length comparing three different bioinformatic approaches (Computel, K‐seek and TRIP) in addition to qPCR. Overall, telomere length estimates varied across different bioinformatic approaches, but were highly correlated across methods for individual genotypes. A positive correlation was observed between WGS estimates and qPCR, however, Computel estimates exhibited the greatest correlation. Computel incorporates genome coverage into telomere length calculations, suggesting that genome coverage is likely important to telomere length quantification when using WGS data. Overall, telomere estimates from WGS provided greater precision and accuracy of telomere length estimates relative to qPCR. The findings suggest WGS is a promising approach for assessing telomere length and, as the field of telomere ecology evolves, may provide added value to assaying response to biotic and abiotic environments for plants needed to accelerate plant breeding and conservation management. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Convergent local adaptation to climate in distantly related conifers

Author

Yeaman, Sam, Hodgins, Kathryn A., Lotterhos, Katie E., Suren, Haktan, Nadeau, Simon, Degner, Jon C., Nurkowski, Kristin A., Smets, Pia, Wang, Tongli, Gray, Laura K., Liepe, Katharina J., Hamann, Andreas, Holliday, Jason A., Whitlock, Michael C., Rieseberg, Loren H., and Aitken, Sally N.

Published
2016

14. GWAS on the Attack by Aspen Borer Saperda calcarata on Black Cottonwood Trees Reveals a Response Mechanism Involving Secondary Metabolism and Independence of Tree Architecture

Author

Sepúlveda, Sebastián L., Neale, David B., Holliday, Jason A., Famula, Randi, Fiehn, Oliver, Stanton, Brian J., Guerra, Fernando P., Sepúlveda, Sebastián L., Neale, David B., Holliday, Jason A., Famula, Randi, Fiehn, Oliver, Stanton, Brian J., and Guerra, Fernando P.

Abstract

Black cottonwood (Populus trichocarpa) is a species of economic interest and an outstanding study model. The aspen borer (Saperda calcarata) causes irreversible damage to poplars and other riparian species in North America. The insect can produce multiple effects ranging from the presence of some galleries in the stem to tree death. Despite the ecological and commercial importance of this tree–insect interaction, the genetic mechanisms underlying the response of P. trichocarpa to S. calcarata are scarcely understood. In this study, a common garden trial of P. trichocarpa provenances, established in Davis, California, was assessed at the second year of growth, regarding the infestation of S. calcarata from a natural outbreak. A genome-wide association study (GWAS) was conducted using 629k of exonic SNPs to assess the relationship between genomic variation and insect attack. Tree architecture, in terms of stem number per plant, and the wood metabolome were also included. Insect attack was independent of the number of stems per tree. The performed GWAS identified three significantly associated SNP markers (q-value < 0.2) belonging to the same number of gene models, encoding proteins involved in signal transduction mechanisms and secondary metabolite production, including that of R-mandelonitrile lyase, Chromodomain-helicase-DNA-binding family protein, and Leucine-rich repeat protein. These results are aligned with the current knowledge of defensive pathways in plants and trees, helping to expand the understanding of the defensive response mechanisms of black cottonwood against wood borer insects.

Published
2023

17. Frozen in time: Rangewide genomic diversity, structure, and demographic history of relict American chestnut populations

Author

Sandercock, Alexander M., primary, Westbrook, Jared W., additional, Zhang, Qian, additional, Johnson, Hayley A., additional, Saielli, Thomas M., additional, Scrivani, John A., additional, Fitzsimmons, Sara F., additional, Collins, Kendra, additional, Perkins, Matthew Taylor, additional, Craddock, James Hill, additional, Schmutz, Jeremy, additional, Grimwood, Jane, additional, and Holliday, Jason A., additional

Published
2022
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23. Whole-genome resequencing reveals the population structure, genomic diversity, and demographic history of American chestnut (Castanea dentata)

Author

Sandercock, Alexander M, primary, Westbrook, Jared W, additional, Zhang, Qian, additional, Johnson, Hayley A, additional, Saielli, Thomas M, additional, Scrivani, John A, additional, Fitzsimmons, Sara F, additional, Collins, Kendra, additional, Schmutz, Jeremy, additional, Grimwood, Jane, additional, and Holliday, Jason A, additional

Published
2022
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25. Optimizing genomic selection for blight resistance in American chestnut backcross populations: A trade‐off with American chestnut ancestry implies resistance is polygenic

Author

Westbrook, Jared W., Zhang, Qian, Mandal, Mihir Kumar, Jenkins, Eric V., Barth, Laura E., Jenkins, Jerry W., Grimwood, Jane, Schmutz, Jeremy, Holliday, Jason A., and Forest Resources and Environmental Conservation

Subjects
backcross breeding, fungi, Castanea dentata, Cryphonectria parasitica, genomic selection, single‐step HBLUP
Abstract

American chestnut was once a foundation species of eastern North American forests, but was rendered functionally extinct in the early 20th century by an exotic fungal blight (Cryphonectria parasitica). Over the past 30 years, the American Chestnut Foundation (TACF) has pursued backcross breeding to generate hybrids that combine the timber‐type form of American chestnut with the blight resistance of Chinese chestnut based on a hypothesis of major gene resistance. To accelerate selection within two backcross populations that descended from two Chinese chestnuts, we developed genomic prediction models for five presence/absence blight phenotypes of 1,230 BC₃F₂ selection candidates and average canker severity of their BC₃F₃ progeny. We also genotyped pure Chinese and American chestnut reference panels to estimate the proportion of BC₃F₂ genomes inherited from parent species. We found that genomic prediction from a method that assumes an infinitesimal model of inheritance (HBLUP) has similar accuracy to a method that tends to perform well for traits controlled by major genes (Bayes C). Furthermore, the proportion of BC₃F₂ trees' genomes inherited from American chestnut was negatively correlated with the blight resistance of these trees and their progeny. On average, selected BC₃F₂ trees inherited 83% of their genome from American chestnut and have blight resistance that is intermediate between F₁ hybrids and American chestnut. Results suggest polygenic inheritance of blight resistance. The blight resistance of restoration populations will be enhanced through recurrent selection, by advancing additional sources of resistance through fewer backcross generations, and by potentially by breeding with transgenic blight‐tolerant trees. McIntire‐Stennis, Grant/Award Number: 1005394; U.S. Endowment for Forestry and Communities; Colcom Foundation; National Institute of Food and Agriculture, Grant/Award Number: 2016‐67013‐24581; Allegheny Foundation; Virginia Tech Open Access Subvention Fund

Published
2019

26. Forest genomics: Advancing climate adaptation, forest health, productivity, and conservation

Author

Isabel, Nathalie, Holliday, Jason A., Aitken, Sally N., Isabel, Nathalie, Holliday, Jason A., and Aitken, Sally N.

Abstract

Forest ecosystems provide important ecological services and resources, from habitat for biodiversity to the production of environmentally friendly products, and play a key role in the global carbon cycle. Humanity is counting on forests to sequester and store a substantial portion of the anthropogenic carbon dioxide produced globally. However, the unprecedented rate of climate change, deforestation, and accidental importation of invasive insects and diseases are threatening the health and productivity of forests, and their capacity to provide these services. Knowledge of genetic diversity, local adaptation, and genetic control of key traits is required to predict the adaptive capacity of tree populations, inform forest management and conservation decisions, and improve breeding for productive trees that will withstand the challenges of the 21st century. Genomic approaches have well accelerated the generation of knowledge of the genetic and evolutionary underpinnings of nonmodel tree species, and advanced their applications to address these challenges. This special issue of Evolutionary Applications features 14 papers that demonstrate the value of a wide range of genomic approaches that can be used to better understand the biology of forest trees, including species that are widespread and managed for timber production, and others that are threatened or endangered, or serve important ecological roles. We highlight some of the major advances, ranging from understanding the evolution of genomes since the period when gymnosperms separated from angiosperms 300 million years ago to using genomic selection to accelerate breeding for tree health and productivity. We also discuss some of the challenges and future directions for applying genomic tools to address long-standing questions about forest trees.

Published
2020
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27. Focused ultrasound extraction (FUSE) for the rapid extraction of DNA from tissue matrices

Author

Holmes, Hal R., Haywood, Morgan, Hutchison, Ruby, Zhang, Qian, Edsall, Connor, Hall, Timothy L., Baisch, David, Holliday, Jason A., Vlaisavljevich, Eli, Holmes, Hal R., Haywood, Morgan, Hutchison, Ruby, Zhang, Qian, Edsall, Connor, Hall, Timothy L., Baisch, David, Holliday, Jason A., and Vlaisavljevich, Eli

Abstract

Rapid DNA extraction is a critical barrier for routine and fieldable genetics tests for applications in conservation, such as illegal trafficking and fraudulent mislabelling. Here, we develop a non-thermal focused ultrasound extraction (FUSE) technique that creates a dense cloud of high-pressure acoustic cavitation bubbles to disintegrate targeted tissues into an acellular debris, resulting in the rapid release of entrapped DNA. In this work, we demonstrate the proof-of-concept of the FUSE technique by obtaining species identifiable sequences and shotgun sequencing reads from DNA extracted from Atlantic salmon Salmo salar tissues. Having mitigated the key risks for this technique, we hypothesize future developments with this technology can be applied to accelerate and simplify DNA extraction from exceedingly difficult samples with complex tissue matrices (i.e. fibrous tissue and timber samples) in both laboratory and field settings.

Published
2020
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28. A reference genome assembly and adaptive trait analysis of Castanea mollissima 'Vanuxem,' a source of resistance to chestnut blight in restoration breeding

Author

Forest Resources and Environmental Conservation, Staton, Margaret, Addo-Quaye, Charles, Cannon, Nathaniel, Yu, Jiali, Zhebentyayeva, Tetyana, Huff, Matthew, Islam-Faridi, Nurul, Fan, Shenghua, Georgi, Laura L., Nelson, C. Dana, Bellis, Emily, Fitzsimmons, Sara, Henry, Nathan, Drautz-Moses, Daniela, Noorai, Rooksana E., Ficklin, Stephen, Saski, Christopher, Mandal, Mihir Kumar, Wagner, Tyler K., Zembower, Nicole, Bodenes, Catherine, Holliday, Jason A., Westbrook, Jared W., Lasky, Jesse, Hebard, Frederick, V, Schuster, Stephan C., Abbott, Albert G., Carlson, John E., Forest Resources and Environmental Conservation, Staton, Margaret, Addo-Quaye, Charles, Cannon, Nathaniel, Yu, Jiali, Zhebentyayeva, Tetyana, Huff, Matthew, Islam-Faridi, Nurul, Fan, Shenghua, Georgi, Laura L., Nelson, C. Dana, Bellis, Emily, Fitzsimmons, Sara, Henry, Nathan, Drautz-Moses, Daniela, Noorai, Rooksana E., Ficklin, Stephen, Saski, Christopher, Mandal, Mihir Kumar, Wagner, Tyler K., Zembower, Nicole, Bodenes, Catherine, Holliday, Jason A., Westbrook, Jared W., Lasky, Jesse, Hebard, Frederick, V, Schuster, Stephan C., Abbott, Albert G., and Carlson, John E.

Abstract

Forest tree species are increasingly subject to severe mortalities from exotic pests, pathogens, and invasive organisms, accelerated by climate change. Such forest health issues are threatening multiple species and ecosystem sustainability globally. One of the most extreme examples of forest ecosystem disruption is the extirpation of the American chestnut (Castanea dentata) caused by the introduction of chestnut blight and root rot pathogens from Asia. Asian species of chestnut are being employed as donors of disease resistance genes to restore native chestnut species in North America and Europe. To aid in the restoration of threatened chestnut species, we present the assembly of a reference genome for Chinese chestnut (C. mollissima) "Vanuxem," one of the donors of disease resistance for American chestnut restoration. From the de novo assembly of the complete genome (725.2 Mb in 14,110 contigs), over half of the sequences have been anchored to the 12 genetic linkage groups. The anchoring is validated by genetic maps and in situ hybridization to chromosomes. We demonstrate the value of the genome as a platform for research and species restoration, including signatures of selection differentiating American chestnut from Chinese chestnut to identify important candidate genes for disease resistance, comparisons of genome organization with other woody species, and a genome-wide examination of progress in backcross breeding for blight resistance. This reference assembly should prove of great value in the understanding, improvement, and restoration of chestnut species.

Published
2020

29. Forest genomics: Advancing climate adaptation, forest health, productivity, and conservation

Author

Forest Resources and Environmental Conservation, Isabel, Nathalie, Holliday, Jason A., Aitken, Sally N., Forest Resources and Environmental Conservation, Isabel, Nathalie, Holliday, Jason A., and Aitken, Sally N.

Abstract

Forest ecosystems provide important ecological services and resources, from habitat for biodiversity to the production of environmentally friendly products, and play a key role in the global carbon cycle. Humanity is counting on forests to sequester and store a substantial portion of the anthropogenic carbon dioxide produced globally. However, the unprecedented rate of climate change, deforestation, and accidental importation of invasive insects and diseases are threatening the health and productivity of forests, and their capacity to provide these services. Knowledge of genetic diversity, local adaptation, and genetic control of key traits is required to predict the adaptive capacity of tree populations, inform forest management and conservation decisions, and improve breeding for productive trees that will withstand the challenges of the 21st century. Genomic approaches have well accelerated the generation of knowledge of the genetic and evolutionary underpinnings of nonmodel tree species, and advanced their applications to address these challenges. This special issue of Evolutionary Applications features 14 papers that demonstrate the value of a wide range of genomic approaches that can be used to better understand the biology of forest trees, including species that are widespread and managed for timber production, and others that are threatened or endangered, or serve important ecological roles. We highlight some of the major advances, ranging from understanding the evolution of genomes since the period when gymnosperms separated from angiosperms 300 million years ago to using genomic selection to accelerate breeding for tree health and productivity. We also discuss some of the challenges and future directions for applying genomic tools to address long-standing questions about forest trees.

Published
2020

30. Focused ultrasound extraction (FUSE) for the rapid extraction of DNA from tissue matrices

Author

Biomedical Engineering and Mechanics, Forest Resources and Environmental Conservation, Holmes, Hal R., Haywood, Morgan, Hutchison, Ruby, Zhang, Qian, Edsall, Connor, Hall, Timothy L., Baisch, David, Holliday, Jason A., Vlaisavljevich, Eli, Biomedical Engineering and Mechanics, Forest Resources and Environmental Conservation, Holmes, Hal R., Haywood, Morgan, Hutchison, Ruby, Zhang, Qian, Edsall, Connor, Hall, Timothy L., Baisch, David, Holliday, Jason A., and Vlaisavljevich, Eli

Abstract

Rapid DNA extraction is a critical barrier for routine and fieldable genetics tests for applications in conservation, such as illegal trafficking and fraudulent mislabelling. Here, we develop a non-thermal focused ultrasound extraction (FUSE) technique that creates a dense cloud of high-pressure acoustic cavitation bubbles to disintegrate targeted tissues into an acellular debris, resulting in the rapid release of entrapped DNA. In this work, we demonstrate the proof-of-concept of the FUSE technique by obtaining species identifiable sequences and shotgun sequencing reads from DNA extracted from Atlantic salmon Salmo salar tissues. Having mitigated the key risks for this technique, we hypothesize future developments with this technology can be applied to accelerate and simplify DNA extraction from exceedingly difficult samples with complex tissue matrices (i.e. fibrous tissue and timber samples) in both laboratory and field settings.

Published
2020

32. Effects of Glyphosate Herbicide on Phytophthora cinnamomi and Mine Soil Microbial Communities

Author

Klopf, Sara K., Holliday, Jason A., Badgley, Brian D., and Powell River Project

Abstract

The American Chestnut (Castanea denata) was once the dominant hardwood species within the forests of the Appalachians and an important resource for people and wildlife. In the early 1900s, a fungal blight (Cryphonectria parasitica) was introduced from imported ‘Japanese Giant’ nursery trees that caused topkill of American chestnuts (Tallamy 2007). Trees infected with C. parasitica die back, then continually resprout from the roots. Since 1983, the American Chestnut Foundation has been conducting a backcross breeding program to produce hybrid trees resistant to the blight, and more recently, various research institutions have been working to develop transgenic varieties of American chestnut which express genes that may give the trees resistance to the blight. Additional pathogens, such as the fungus-like oomycete which causes root rot (Phytophthora cinnamomi), have furthered threatened C. dentata, and research of transgenic American chestnuts has included the identification of genes that may provide resistance to P. cinnamomi.

Published
2019

33. Targeted enrichment of the black cottonwood (Populus trichocarpa) gene space using sequence capture

Author

Zhou Lecong and Holliday Jason A

Subjects
Poplar, Sureselect, Exome, Population genomics, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background High-throughput re-sequencing is rapidly becoming the method of choice for studies of neutral and adaptive processes in natural populations across taxa. As re-sequencing the genome of large numbers of samples is still cost-prohibitive in many cases, methods for genome complexity reduction have been developed in attempts to capture most ecologically-relevant genetic variation. One of these approaches is sequence capture, in which oligonucleotide baits specific to genomic regions of interest are synthesized and used to retrieve and sequence those regions. Results We used sequence capture to re-sequence most predicted exons, their upstream regulatory regions, as well as numerous random genomic intervals in a panel of 48 genotypes of the angiosperm tree Populus trichocarpa (black cottonwood, or ‘poplar’). A total of 20.76Mb (5%) of the poplar genome was targeted, corresponding to 173,040 baits. With 12 indexed samples run in each of four lanes on an Illumina HiSeq instrument (2x100 paired-end), 86.8% of the bait regions were on average sequenced at a depth ≥10X. Few off-target regions (>250bp away from any bait) were present in the data, but on average ~80bp on either side of the baits were captured and sequenced to an acceptable depth (≥10X) to call heterozygous SNPs. Nucleotide diversity estimates within and adjacent to protein-coding genes were similar to those previously reported in Populus spp., while intergenic regions had higher values consistent with a relaxation of selection. Conclusions Our results illustrate the efficiency and utility of sequence capture for re-sequencing highly heterozygous tree genomes, and suggest design considerations to optimize the use of baits in future studies.

Published
2012
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34. Identity, influence, and intervention: The roles of social media in alcohol use

Author

Holliday, Jason and Westgate, Erin

Subjects
PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Obsessive-compulsive and Related Disorders, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Sexual Dysfunctions, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Personality and Creativity, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Diagnosis, 030508 substance abuse, Identity (social science), Alcohol, Social and Behavioral Sciences, bepress|Social and Behavioral Sciences|Psychology|Clinical Psychology, 0302 clinical medicine, Psychology, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Testing and Assessment, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology, General Psychology, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Prejudice and Discrimination, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Well-being, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Social Influence, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Clinical Ethics, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Affect and Emotion Regulation, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Bipolar and Related Disorders, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Social Well-being, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Elimination Disorders, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Intergroup Processes, Clinical Psychology, PsyArXiv|Social and Behavioral Sciences|Social and Personality Psychology|Self and Social Identity, PsyArXiv|Social and Behavioral Sciences|Health Psychology|Treatment, 0305 other medical science, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Personality Disorders, PsyArXiv|Social and Behavioral Sciences|Clinical Psychology|Neurocognitive Disorders, Social Psychology, 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Abstract

Alcohol-related content is common on social media and may both reflect and influence offline drinking behavior. Posting alcohol-related content has been linked to alcohol outcomes, including higher rates of alcohol consumption, cravings, alcohol-related problems, and clinical alcohol use disorders. Exposure to alcohol-related content on social media has likewise been associated with adverse alcohol outcomes. In this paper, we review research on the relationship between social media and alcohol use, and explore the ways that online identity and social influence can account for this relationship. Finally, we call for further research on the use of social media as a platform for prevention and intervention efforts.

Published
2018
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39. Genomic selection analyses reveal tradeoff between chestnut blight tolerance and genome inheritance from American chestnut (Castanea dentata) in (C. dentataxC. mollissima) xC. dentatabackcross populations

Author

Westbrook, Jared W., primary, Zhang, Qian, additional, Mandal, Mihir K., additional, Jenkins, Eric V., additional, Barth, Laura E., additional, Jenkins, Jerry W., additional, Grimwood, Jane, additional, Schmutz, Jeremy, additional, and Holliday, Jason A., additional

Published
2019
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40. Exome resequencing and GWAS for growth, ecophysiology, and chemical and metabolomic composition of wood of Populus trichocarpa

Author

Guerra, Fernando P., primary, Suren, Haktan, additional, Holliday, Jason, additional, Richards, James H., additional, Fiehn, Oliver, additional, Famula, Randi, additional, Stanton, Brian J., additional, Shuren, Richard, additional, Sykes, Robert, additional, Davis, Mark F., additional, and Neale, David B., additional

Published
2019
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41. The Chinese chestnut genome: a reference for species restoration

Author

Staton, Margaret, primary, Addo-Quaye, Charles, additional, Cannon, Nathaniel, additional, Sun, Yongshuai, additional, Zhebentyayeva, Tetyana, additional, Huff, Matthew, additional, Fan, Shenghua, additional, Bellis, Emily, additional, Islam-Faridi, Nurul, additional, Yu, Jiali, additional, Henry, Nathan, additional, Conrad, Anna, additional, Drautz-Moses, Daniela I., additional, Zhu, Xingfu, additional, Lu, Zhiqiang, additional, Noorai, Rooksana E., additional, Ficklin, Stephen, additional, Saski, Chris, additional, Mandal, Mihir, additional, Wagner, Tyler K, additional, Zembower, Nicole, additional, Bodénès, Catherine, additional, Holliday, Jason, additional, Westbrook, Jared, additional, Lasky, Jesse, additional, Georgi, Laura, additional, Hebard, Fred V, additional, Nelson, C. Dana, additional, Schuster, Stephan C, additional, Abbott, Albert G, additional, and Carlson, JE, additional

Published
2019
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42. Creeping legalism in public sector grievance arbitration: an empirical approach.

Author

Rubin, Richard S., Holliday, Jason W., Brown, Casey L., and Rolle, R. Anthony

Subjects
Grievance arbitration -- Research, Public employees -- Negotiation, mediation and arbitration
Abstract

Research on grievance arbitration in the public sector suggests that creeping legalism is a problem there just as much as in the private sector. Creeping legalism undermines arbitration's traditional informality and low cost and is marked by the use of lawyers, written transcripts, and formal evidence codes. A review of the literature and data indicated that these practices were becoming more common in public sector arbitration. Usage of arbitration decreases as it becomes more legalistic.

Published
1998

43. Exome resequencing and GWAS for growth, ecophysiology, and chemical and metabolomic composition of wood of Populus trichocarpa

Author

Guerra, Fernando P., Suren, Haktan, Holliday, Jason A., Richards, James H., Fiehn, Oliver, Famula, Randi, Stanton, Brian J., Shuren, Richard, Sykes, Robert, Davis, Mark F., Neale, David B., Guerra, Fernando P., Suren, Haktan, Holliday, Jason A., Richards, James H., Fiehn, Oliver, Famula, Randi, Stanton, Brian J., Shuren, Richard, Sykes, Robert, Davis, Mark F., and Neale, David B.

Abstract

Background Populus trichocarpa is an important forest tree species for the generation of lignocellulosic ethanol. Understanding the genomic basis of biomass production and chemical composition of wood is fundamental in supporting genetic improvement programs. Considerable variation has been observed in this species for complex traits related to growth, phenology, ecophysiology and wood chemistry. Those traits are influenced by both polygenic control and environmental effects, and their genome architecture and regulation are only partially understood. Genome wide association studies (GWAS) represent an approach to advance that aim using thousands of single nucleotide polymorphisms (SNPs). Genotyping using exome capture methodologies represent an efficient approach to identify specific functional regions of genomes underlying phenotypic variation. Results We identified 813 K SNPs, which were utilized for genotyping 461 P. trichocarpa clones, representing 101 provenances collected from Oregon and Washington, and established in California. A GWAS performed on 20 traits, considering single SNP-marker tests identified a variable number of significant SNPs (p-value < 6.1479E-8) in association with diameter, height, leaf carbon and nitrogen contents, and δ15N. The number of significant SNPs ranged from 2 to 220 per trait. Additionally, multiple-marker analyses by sliding-windows tests detected between 6 and 192 significant windows for the analyzed traits. The significant SNPs resided within genes that encode proteins belonging to different functional classes as such protein synthesis, energy/metabolism and DNA/RNA metabolism, among others. Conclusions SNP-markers within genes associated with traits of importance for biomass production were detected. They contribute to characterize the genomic architecture of P. trichocarpa biomass required to support the development and application of marker breeding technologies.

Published
2019
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44. Phenotypic and Genomic Local Adaptation across Latitude and Altitude in Populus trichocarpa

Author

Zhang, Man, Suren, Haktan, Holliday, Jason A., Zhang, Man, Suren, Haktan, and Holliday, Jason A.

Abstract

Local adaptation to climate allows plants to cope with temporally and spatially heterogeneous environments, and parallel phenotypic clines provide a natural experiment to uncover the genomic architecture of adaptation. Though extensive effort has been made to investigate the genomic basis of local adaptation to climate across the latitudinal range of tree species, less is known for altitudinal clines. We used exome capture to genotype 451 Populus trichocarpa genotypes across altitudinal and latitudinal gradients spanning the natural species range, and phenotyped these trees for a variety of adaptive traits in two common gardens. We observed clinal variation in phenotypic traits across the two transects,which indicates climate-driven selection, and coupled gene-based genotype–phenotype and genotype–environment association scans to identify imprints of climatic adaptation on the genome. Although many of the phenotype-and climate-associated genes were unique to one transect, we found evidence of parallelism between latitude and altitude, as well as significant convergence when we compared our outlier genes with those putatively involved in climatic adaptation in two gymnosperm species. These results suggest that not only genomic constraint during adaptation to similar environmental gradients in poplar but also different environmental contexts, spatial scale, and perhaps redundant function among potentially adaptive genes and polymorphisms lead to divergent adaptive architectures.

Published
2019
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45. Exome Resequencing Reveals Evolutionary History, Genomic Diversity, and Targets of Selection in the Conifers Pinus taeda and Pinus elliottii

Author

Acosta, Juan J., Fahrenkrog, Annette M., Neves, Leandro G., Resende, Marcio FR R., Dervinis, Christopher, Davis, John M., Holliday, Jason A., Kirst, Matias, Acosta, Juan J., Fahrenkrog, Annette M., Neves, Leandro G., Resende, Marcio FR R., Dervinis, Christopher, Davis, John M., Holliday, Jason A., and Kirst, Matias

Abstract

Loblolly pine (Pinus taeda) and slash pine (Pinus elliottii) are ecologically and economically important pine species that dominate many forest ecosystems in the southern United States, but like all conifers, the study of their genetic diversity and demographic history has been hampered by their large genome size. A small number of studies mainly based on candidate-gene sequencing have been reported for P. taeda to date, whereas none are available for P. elliottii. Targeted exome resequencing has recently enabled population genomics studies for conifers, approach used here to assess genomic diversity, signatures of selection, population structure, and demographic history of P. elliottii and P. taeda. Extensive similarities were revealed between these species: both species feature rapid linkage disequilibrium decay and high levels of genetic diversity. Moreover, genome-wide positive correlations for measures of genetic diversity between the species were also observed, likely due to shared structural genomic constraints. Also, positive selection appears to be targeting a common set of genes in both pines. Demographic history differs between both species, with only P. taeda being affected by a dramatic bottleneck during the last glacial period. The ability of P. taeda to recover from a dramatic reduction in population size while still retaining high levels of genetic diversity shows promise for other pines facing environmental stressors associated with climate change, indicating that these too may be able to adapt successfully to new future conditions even after a drastic population size contraction.

Published
2019
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46. Phenotypic and Genomic Local Adaptation across Latitude and Altitude in Populus trichocarpa

Author

Forest Resources and Environmental Conservation, Zhang, Man, Suren, Haktan, Holliday, Jason A., Forest Resources and Environmental Conservation, Zhang, Man, Suren, Haktan, and Holliday, Jason A.

Abstract

Local adaptation to climate allows plants to cope with temporally and spatially heterogeneous environments, and parallel phenotypic clines provide a natural experiment to uncover the genomic architecture of adaptation. Though extensive effort has been made to investigate the genomic basis of local adaptation to climate across the latitudinal range of tree species, less is known for altitudinal clines. We used exome capture to genotype 451 Populus trichocarpa genotypes across altitudinal and latitudinal gradients spanning the natural species range, and phenotyped these trees for a variety of adaptive traits in two common gardens. We observed clinal variation in phenotypic traits across the two transects,which indicates climate-driven selection, and coupled gene-based genotype–phenotype and genotype–environment association scans to identify imprints of climatic adaptation on the genome. Although many of the phenotype-and climate-associated genes were unique to one transect, we found evidence of parallelism between latitude and altitude, as well as significant convergence when we compared our outlier genes with those putatively involved in climatic adaptation in two gymnosperm species. These results suggest that not only genomic constraint during adaptation to similar environmental gradients in poplar but also different environmental contexts, spatial scale, and perhaps redundant function among potentially adaptive genes and polymorphisms lead to divergent adaptive architectures.

Published
2019

47. Effects of Glyphosate Herbicide on Phytophthora cinnamomi and Mine Soil Microbial Communities

Author

Powell River Project, Klopf, Sara K., Holliday, Jason A., Badgley, Brian D., Powell River Project, Klopf, Sara K., Holliday, Jason A., and Badgley, Brian D.

Abstract

The American Chestnut (Castanea denata) was once the dominant hardwood species within the forests of the Appalachians and an important resource for people and wildlife. In the early 1900s, a fungal blight (Cryphonectria parasitica) was introduced from imported ‘Japanese Giant’ nursery trees that caused topkill of American chestnuts (Tallamy 2007). Trees infected with C. parasitica die back, then continually resprout from the roots. Since 1983, the American Chestnut Foundation has been conducting a backcross breeding program to produce hybrid trees resistant to the blight, and more recently, various research institutions have been working to develop transgenic varieties of American chestnut which express genes that may give the trees resistance to the blight. Additional pathogens, such as the fungus-like oomycete which causes root rot (Phytophthora cinnamomi), have furthered threatened C. dentata, and research of transgenic American chestnuts has included the identification of genes that may provide resistance to P. cinnamomi.

Published
2019

48. Optimizing genomic selection for blight resistance in American chestnut backcross populations: A trade‐off with American chestnut ancestry implies resistance is polygenic

Author

Forest Resources and Environmental Conservation, Westbrook, Jared W., Zhang, Qian, Mandal, Mihir Kumar, Jenkins, Eric V., Barth, Laura E., Jenkins, Jerry W., Grimwood, Jane, Schmutz, Jeremy, Holliday, Jason A., Forest Resources and Environmental Conservation, Westbrook, Jared W., Zhang, Qian, Mandal, Mihir Kumar, Jenkins, Eric V., Barth, Laura E., Jenkins, Jerry W., Grimwood, Jane, Schmutz, Jeremy, and Holliday, Jason A.

Abstract

American chestnut was once a foundation species of eastern North American forests, but was rendered functionally extinct in the early 20th century by an exotic fungal blight (Cryphonectria parasitica). Over the past 30 years, the American Chestnut Foundation (TACF) has pursued backcross breeding to generate hybrids that combine the timber‐type form of American chestnut with the blight resistance of Chinese chestnut based on a hypothesis of major gene resistance. To accelerate selection within two backcross populations that descended from two Chinese chestnuts, we developed genomic prediction models for five presence/absence blight phenotypes of 1,230 BC₃F₂ selection candidates and average canker severity of their BC₃F₃ progeny. We also genotyped pure Chinese and American chestnut reference panels to estimate the proportion of BC₃F₂ genomes inherited from parent species. We found that genomic prediction from a method that assumes an infinitesimal model of inheritance (HBLUP) has similar accuracy to a method that tends to perform well for traits controlled by major genes (Bayes C). Furthermore, the proportion of BC₃F₂ trees' genomes inherited from American chestnut was negatively correlated with the blight resistance of these trees and their progeny. On average, selected BC₃F₂ trees inherited 83% of their genome from American chestnut and have blight resistance that is intermediate between F₁ hybrids and American chestnut. Results suggest polygenic inheritance of blight resistance. The blight resistance of restoration populations will be enhanced through recurrent selection, by advancing additional sources of resistance through fewer backcross generations, and by potentially by breeding with transgenic blight‐tolerant trees.

Published
2019

49. Toward Deregulation of Genetically Modified American Chestnut for Surface Mine Reclamation: Genomic Mechanisms of Transgene-Mediated Blight Resistance

Author

Holliday, Jason A., Klopf, Sara K., and Powell River Project

Abstract

We have been testing numerous candidate genetically modified (GM) lines of American chestnut (Castanea dentata) at the Powell River Project since 2014, with several showing promising levels of resistance and growth. Former surface mines represent an obvious context in which to begin restoration efforts using these GM trees, but extensive data on the environmental and ecological impacts of the transgenes is required before the US Department of Agriculture will consider their deployment outside of our current heavily monitored field trials. One of the first such pieces of data will be to show at the cellular level how a given transgene leads to resistance. As genes and their protein products function in regulatory networks that may involve thousands of other genes/proteins, assessing the risk (or lack thereof) when a transgene escapes requires an understanding of how that transgene functions in the tree, and whether it has undesirable off-target effects. One way to address this question is to leverage next generation sequencing to assess how gene regulatory networks are perturbed in the GM vs. wild-type lines. In this study, we have inoculated a number of trees in our GM field trial with Cryphonectria parasitica (chestnut blight) and sampled the resulting cankers for extraction of RNA. RNA-sequencing work is on-going, but we will achieve a detailed view of how the transgenes affect the rest of the gene regulatory network in these trees (that is, which genes are turned on/off and to what degree). The data arising from this project will supplement ongoing studies by collaborators toward the ultimate goal of de-regulation for one or more of these GM lines, and more extensive deployment of the trees for surface mine reclamation. Here we present some preliminary results from this study.

Published
2018

50. SmartPlants and SmartFarms for Global Food, Feed, and Fiber Security

Author

Abaye, Azenegashe Ozzie, Balota, Maria, Bombarely Gomez, Aureliano, Clark, Susan F., Evanylo, Gregory K., Fox, Thomas R., Grabau, Elizabeth, Haak, David C., Holliday, Jason A., Kroehler, Carolyn J., Lowman, James Scott, McDowell, John M., Raun, Patricia, Saghai-Maroof, Mohammad A., Schmale, David G. III, Tholl, Dorothea, Thomason, Wade E., Tokekar, Pratap, Veilleux, Richard E., Vinatzer, Boris A., Westwood, James, Wynne, Randolph H., and Zhao, Bingyu

Abstract

Meeting the food, feed, and fiber needs of a growing world population represents one of the signature challenges of this century. The UN FAO estimates that food production alone must increase by 70 percent by 2050 to meet the needs of a projected nine billion people. Demand will also increase for livestock feed, biofuel feedstocks, fiber for paper products, and construction materials. Meeting these demands will require implementation of advanced technologies, sustainable management of natural resources, and coordination of political forces. We must think beyond the boundaries of traditional agriculture, to integrate breakthroughs in plant science, engineering, environmental sciences, and other disciplines...

Published
2017

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