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Your search keyword '"Reid, Robert W."' showing total 26 results
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26 results on '"Reid, Robert W."'

1. Chromosomal rearrangements as a source of local adaptation in island Drosophila

Author

Turner, Brandon A., Miorin, Theresa R., Stewart, Nicholas B., Reid, Robert W., Moore, Cathy C., and Rogers, Rebekah L.

Subjects
Quantitative Biology - Populations and Evolution, Quantitative Biology - Genomics
Abstract

Chromosomal rearrangements act as a source of genetic novelty by shuffling DNA throughout the genome. These mutations can produce chimeric genes, induce de novo gene formation, or alter gene expression changes for existing genes. Here, we explore how these mutations may serve as agents of evolutionary change as populations adapt to new environments during habitat shifts. We identify 16,480 rearrangements in mainland D. yakuba and two locally adapted populations of D. santomea and D yakuba on Sao Tome. Three loci that are associated with signals of strong differentiation in D. santomea lie adjacent to UV resistance or DNA repair genes, suggesting that these rearrangements confer selective advantages in high altitude environments with greater UV stressors. Some 55% of these mutations are facilitated by TE insertions, and 28% are TE facilitated ectopic recombination. In D. santomea 468 mutations are associated with strong signals of differentiation from the mainland while in island D yakuba we identify 383 candidates of local adaptation. A total of 49.4% of mutations associated with signals of local adaptation also show significant changes in transcript levels, suggesting that the adaptive value of rearrangements is related to effects on gene expression. Together, this survey of structural variation identifies key modes of evolutionary innovation that would be missed in SNP-based screens. This work offers a portrait of how these mutations appear and help organisms to survive during habitat shifts, furthering our understanding of evolutionary processes., Comment: 53 pages; 3 tables, 6 figures main; 1 table, 20 figures supplement

Published
2021

5. Functional recovery following traumatic brain injury in rats is enhanced by oral supplementation with bovine thymus extract

Author

Surzenko, Natalia, primary, Bastidas, Johana, additional, Reid, Robert W., additional, Curaba, Julien, additional, Zhang, Wei, additional, Bostan, Hamed, additional, Wilson, Mickey, additional, Dominique, Ashley, additional, Roberson, Julia, additional, Ignacio, Glicerio, additional, Komarnytsky, Slavko, additional, Sanders, Alexa, additional, Lambirth, Kevin, additional, Brouwer, Cory R., additional, and El‐Khodor, Bassem F., additional

Published
2024
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6. Flavonols improve thermotolerance in tomato pollen during germination and tube elongation by maintaining ROS homeostasis

Author

Postiglione, Anthony E., primary, Delange, Allison M., additional, Ali, Mohammad Foteh, additional, Houben, Maarten, additional, Wang, Eric Y., additional, Hahn, Stacy L., additional, Roark, Colleen M., additional, Davis, Molly, additional, Reid, Robert W., additional, Pease, James B., additional, Loraine, Ann E., additional, and Muday, Gloria K., additional

Published
2023
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19. A Consensus Map in Cultivated Hexaploid Oat Reveals Conserved Grass Synteny with Substantial Subgenome Rearrangement

Author

Chaffin, Ashley S., primary, Huang, Yung‐Fen, additional, Smith, Scott, additional, Bekele, Wubishet A., additional, Babiker, Ebrahiem, additional, Gnanesh, Belaghihalli N., additional, Foresman, Bradley J., additional, Blanchard, Steven G., additional, Jay, Jeremy J., additional, Reid, Robert W., additional, Wight, Charlene P., additional, Chao, Shiaoman, additional, Oliver, Rebekah, additional, Islamovic, Emir, additional, Kolb, Frederic L., additional, McCartney, Curt, additional, Mitchell Fetch, Jennifer W., additional, Beattie, Aaron D., additional, Bjørnstad, Åsmund, additional, Bonman, J. Michael, additional, Langdon, Tim, additional, Howarth, Catherine J., additional, Brouwer, Cory R., additional, Jellen, Eric N., additional, Klos, Kathy Esvelt, additional, Poland, Jesse A., additional, Hsieh, Tzung‐Fu, additional, Brown, Ryan, additional, Jackson, Eric, additional, Schlueter, Jessica A., additional, and Tinker, Nicholas A., additional

Published
2016
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22. Colaboradores

Author

Aleshi, Pedram, Arendt, Katherine W., Aucott, Susan W., Bader, Angela M., Bateman, Brian T., Beilin, Yaakov, Birnbach, David J., Bucklin, Brenda A., Butwick, Alexander, Camann, William, Carvalho, Brendan, Caton, Donald, Chestnut, David H., Chu, Larry F., D’Angelo, Robert, Davies, Joanna M., Douglas, M. Joanne, Eisenach, James C., El-Wahab, Niveen, Esakoff, Tania F., Fernando, Roshan, Flood, Pamela, Frölich, Michael, Gaiser, Robert, Geller, Andrew, Gin, Tony, Grobman, William A., Habib, Ashraf S., Hari, M. Shankar, Epi., Dip., Hawkins, Joy L., Howell, Paul, Kilpatrick, Sarah J., Koffel, BettyLou, Leffert, Lisa R., Lindeman, Karen S., Livingston, Elizabeth G., Macarthur, Alison, Malinow, Andrew M., Marino, Teresa, Mhyre, Jill M., Minnich, Marie E., Nathan, Naveen, Kee, Warwick D. Ngan, Norwitz, Errol R., O’Sullivan, Geraldine, Pacheco, Luis, Palanisamy, Arvind, Pan, Peter H., Park, Joong Shin, Polley, Linda S., Popat, Mansukh, Popham, Phil, Preston, Roanne, Reid, Robert W., Reynolds, Felicity, Rollins, Mark D., Rosen, Mark A., Rouse, Dwight J., Russell, Robin, Salas, Eduardo, Santos, Alan C., Scavone, Barbara M., Segal, Scott, Sharma, Shiv K., Sherwood, Edward R., Soens, Mieke, Tita, Alan T.N., Toledo, Paloma, Tsen, Lawrence C., Van de Velde, Marc, Vidovich, Mladen I., Walton, Janelle R., Wax, David B., Williams, Mark S., Wissler, Richard N., Wlody, David J., Wong, Cynthia A., Yankowitz, Jerome, and Zakowski, Mark I.

Published
2016
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23. LinkageMapView—rendering high-resolution linkage and QTL maps.

Author

Ouellette, Lisa A, Reid, Robert W, Blanchard, Steven G, and Brouwer, Cory R

Subjects
*GENETIC research, *GENETIC software, *GENETIC genealogy, *GENETICS, *BIOINFORMATICS
Abstract

Motivation: Linkage and quantitative trait loci (QTL) maps are critical tools for the study of the genetic basis of complex traits. With the advances in sequencing technology over the past decade, linkage map densities have been increasing dramatically, while the visualization tools have not kept pace. LinkageMapView is a free add-on package written in R that produces high resolution, publication-ready visualizations of linkage and QTL maps. While there is software available to generate linkage map graphics, none are freely available, produce publication quality figures, are open source and can run on all platforms. LinkageMapView can be integrated into map building pipelines as it seamlessly incorporates output from R/qtl and also accepts simple text or comma delimited files. There are numerous options within the package to build highly customizable maps, allow for linkage group comparisons, and annotate QTL regions. [ABSTRACT FROM AUTHOR]

Published
2018
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24. Flavonols improve tomato pollen thermotolerance during germination and tube elongation by maintaining reactive oxygen species homeostasis.

Author

Postiglione AE, Delange AM, Ali MF, Wang EY, Houben M, Hahn SL, Khoury MG, Roark CM, Davis M, Reid RW, Pease JB, Loraine AE, and Muday GK

Subjects
Plant Proteins metabolism, Plant Proteins genetics, Mixed Function Oxygenases genetics, Mixed Function Oxygenases metabolism, Solanum lycopersicum genetics, Solanum lycopersicum physiology, Solanum lycopersicum metabolism, Reactive Oxygen Species metabolism, Flavonols metabolism, Thermotolerance genetics, Pollen genetics, Pollen physiology, Gene Expression Regulation, Plant, Germination, Pollen Tube growth & development, Pollen Tube genetics, Homeostasis
Abstract

Elevated temperatures impair pollen performance and reproductive success, resulting in lower crop yields. The tomato (Solanum lycopersicum) anthocyanin reduced (are) mutant harbors a mutation in FLAVANONE 3-HYDROXYLASE (F3H), resulting in impaired flavonol antioxidant biosynthesis. The are mutant has reduced pollen performance and seed set relative to the VF36 parental line, phenotypes that are accentuated at elevated temperatures. Transformation of are with the wild-type F3H gene, or chemical complementation with flavonols, prevented temperature-dependent reactive oxygen species (ROS) accumulation in pollen and restored the reduced viability, germination, and tube elongation of are to VF36 levels. Overexpression of F3H in VF36 prevented temperature-driven ROS increases and impaired pollen performance, revealing that flavonol biosynthesis promotes thermotolerance. Although stigmas of are had reduced flavonol and elevated ROS levels, the growth of are pollen tubes was similarly impaired in both are and VF36 pistils. RNA-seq was performed at optimal and stress temperatures in are, VF36, and the F3H overexpression line at multiple timepoints across pollen tube elongation. The number of differentially expressed genes increased over time under elevated temperatures in all genotypes, with the greatest number in are. These findings suggest potential agricultural interventions to combat the negative effects of heat-induced ROS in pollen that lead to reproductive failure., Competing Interests: Conflict of interest statement. None declared., (© The Author(s) 2024. Published by Oxford University Press on behalf of American Society of Plant Biologists.)

Published
2024
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25. Enhanced pollen tube performance at high temperature contributes to thermotolerant fruit production in tomato.

Author

Ouonkap SVY, Palaniappan M, Pryze K, Jong E, Ali MF, Styler B, Almasaud RA, Harkey AF, Reid RW, Loraine AE, Smith SE, Muday GK, Pease JB, Palanivelu R, and Johnson MA

Abstract

Rising temperature extremes during critical reproductive periods threaten the yield of major grain and fruit crops. Flowering plant reproduction depends on development of sufficient numbers of pollen grains and on their ability to generate a cellular extension, the pollen tube, which elongates through the pistil to deliver sperm cells to female gametes for double fertilization. These critical phases of the life cycle are sensitive to temperature and limit productivity under high temperature (HT). Previous studies have investigated the effects of HT on pollen development, but little is known about how HT applied during the pollen tube growth phase affects fertility. Here, we used tomato as a model fruit crop to determine how HT affects the pollen tube growth phase, taking advantage of cultivars noted for fruit production in exceptionally hot growing seasons. We found that exposure to HT solely during the pollen tube growth phase limits fruit biomass and seed set more significantly in thermosensitive cultivars than in thermotolerant cultivars. Importantly, we found that pollen tubes from the thermotolerant Tamaulipas cultivar have enhanced growth in vivo and in vitro under HT. Analysis of the pollen tube transcriptome's response to HT allowed us to develop hypotheses for the molecular basis of cellular thermotolerance in the pollen tube and we define two response modes (enhanced induction of stress responses, and higher basal levels of growth pathways repressed by heat stress) associated with reproductive thermotolerance. Importantly, we define key components of the pollen tube stress response identifying enhanced ROS homeostasis and pollen tube callose synthesis and deposition as important components of reproductive thermotolerance in Tamaulipas. Our work identifies the pollen tube growth phase as a viable target to enhance reproductive thermotolerance and delineates key pathways that are altered in crop varieties capable of fruiting under HT conditions., Competing Interests: Declaration of interests: R.P. is the Editor-in-Chief of Plant Reproduction. All other authors declare no competing interests.

Published
2024
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26. Flavonols improve thermotolerance in tomato pollen during germination and tube elongation by maintaining ROS homeostasis.

Author

Postiglione AE, Delange AM, Ali MF, Wang EY, Houben M, Hahn SL, Khoury MG, Roark CM, Davis M, Reid RW, Pease JB, Loraine AE, and Muday GK

Abstract

Elevated temperatures impair pollen performance and reproductive success, resulting in lower crop yields. The Solanum lycopersicum anthocyanin reduced ( are ) mutant has a FLAVANONE 3 HYDROXYLASE ( F3H ) gene mutation resulting in impaired synthesis of flavonol antioxidants. The are mutant has reduced pollen performance and seed set relative to the VF36 parental line, which is accentuated at elevated temperatures. Transformation of are with the wild-type F3H gene, or chemical complementation with flavonols, prevented temperature-dependent ROS accumulation in pollen and reversed are's reduced viability, germination, and tube elongation to VF36 levels. VF36 transformed with an F3H overexpression construct prevented temperature driven ROS increases and impaired pollen performance, revealing thermotolerance results from elevated flavonol synthesis. Although stigmas of are had reduced flavonols and elevated ROS, the growth of are pollen tubes were similarly impaired in both are and VF36 pistils. RNA-Seq was performed at optimal and stress temperatures in are , VF36, and the VF36 F3H overexpression line at multiple timepoints across pollen tube elongation. Differentially expressed gene numbers increased with duration of elevated temperature in all genotypes, with the largest number in are . These findings suggest potential agricultural interventions to combat the negative effects of heat-induced ROS in pollen that leads to reproductive failure., One Sentence Summary: Flavonol antioxidants reduce the negative impacts of elevated temperatures on pollen performance by reducing levels of heat induced reactive oxygen species and modulation of heat-induced changes in the pollen transcriptome.

Published
2024
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