Your search keyword '"Villarreal JC"' showing total 27 results

1. Intracellular Amyloid-β Detection from Human Brain Sections Using a Microfluidic Immunoassay in Tandem with MALDI-MS.

Author

Villarreal JC, Kow K, Pham B, Egatz-Gomez A, Sandrin TR, Coleman PD, and Ros A

Subjects

Animals, Humans, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Amyloid beta-Peptides chemistry, Brain metabolism, Plaque, Amyloid metabolism, Immunoassay, Microfluidics, Alzheimer Disease metabolism

Abstract

Alzheimer's disease (AD) currently affects more than 30 million people worldwide. The lack of understanding of AD's physiopathology limits the development of therapeutic and diagnostic tools. Soluble amyloid-β peptide (Aβ) oligomers that appear as intermediates along the Aβ aggregation into plaques are considered among the main AD neurotoxic species. Although a wealth of data are available about Aβ from in vitro and animal models, there is little known about intracellular Aβ in human brain cells, mainly due to the lack of technology to assess the intracellular protein content. The elucidation of the Aβ species in specific brain cell subpopulations can provide insight into the role of Aβ in AD and the neurotoxic mechanism involved. Here, we report a microfluidic immunoassay for in situ mass spectrometry analysis of intracellular Aβ species from archived human brain tissue. This approach comprises the selective laser dissection of individual pyramidal cell bodies from tissues, their transfer to the microfluidic platform for sample processing on-chip, and mass spectrometric characterization. As a proof-of-principle, we demonstrate the detection of intracellular Aβ species from as few as 20 human brain cells.

Published

2023

2. The association between expressive language skills and adaptive behavior in individuals with Down syndrome.

Author

Del Hoyo Soriano L, Villarreal JC, Sterling A, Edgin J, Berry-Kravis E, Hamilton DR, Thurman AJ, and Abbeduto L

Subjects

Child, Adolescent, Young Adult, Humans, Language, Cognition, Adaptation, Psychological, Socialization, Down Syndrome

Abstract

The primary goal of this study was to determine whether expressive language skills contribute to adaptive behavior (e.g., socialization and daily living skills) in children, adolescents, and young adults with Down syndrome (DS) whilst controlling for age and nonverbal cognitive ability. Expressive language was assessed using the psychometrically validated Expressive Language Sampling (ELS) conversation and narration procedures. The language produced was transcribed and analyzed to yield measures of expressive vocabulary, syntax, and intelligibility. Socialization and daily living skills of participants with DS were measured with the Vineland Adaptive Behavior Scales, 2nd edition (VABS-2) parent/caregiver rating form. Our results show that the three ELS measures were significantly correlated with multiple measures from the VABS-2 when controlling for age. Several correlations remained significant even when nonverbal cognitive ability was included as a control variable. Our results suggest that expressive language skills contribute to adaptive behavior in children, adolescents, and young adults with DS regardless of age and some of these associations are not explained solely by overall cognitive delays. Further studies including longitudinal data are needed to extend our results., (© 2022. The Author(s).)

Published

2022

3. [Leuko-glycemic index in patients with ST elevation myocardial infarction].

Author

Reyes-Villarreal JC, Morales-Gutiérrez JE, López-Zamora B, Reyes-Navarro GV, Ordoñez-González I, Triana-González S, and Peralta-Amaro AL

Subjects

Aged, Female, Glycemic Index, Humans, Male, Multivariate Analysis, Prognosis, ROC Curve, Risk Factors, Myocardial Infarction complications, Myocardial Infarction diagnosis, ST Elevation Myocardial Infarction complications, ST Elevation Myocardial Infarction diagnosis

Abstract

Background: The myocardial infarction-associated (MI) mortality is not only due cardiovascular complications, but intrahospital non-cardiovascular complications (IHnCVCs). The leuko-glycemic index (LGI) has been used as a prognostic marker for the development of cardiovascular complications in MI. We focused this study on identifying the cut-off point of LGI for the IHnCVCs development in patients with ST-segment elevation myocardial infarction (STEMI)., Material and Methods: In this single-center and crosssectional design, we included patients with STEMI. The biochemical analysis included glucose and leucocytes; with them we calculated the LGI. Receiver operating characteristic curve, univariate and bivariate analysis, and multivariate analysis for IHnCVCs development were performed. A p < 0.05 was considered statistically significant., Results: We included 1294 patients, 79.8% were men and 20.2% women. The main comorbidities were hypertension, diabetes mellitus and dyslipidemia. Six hundred forty-four (49.8%) patients presented IHNCVCs. The LGI > 1200 (AUC 0.817) predict the IHNCVCs development in STEMI patients. The variables that increased the IHNCVCs development were LGI > 1200, creatinine > 0.91 mg/dL, diabetes mellitus and age > 65 years. Hospital acquired pneumonia and cardiovascular complications increase the risk of death among STEMI patients., Conclusion: A LGI > 1200 increased, just over nine times, the risk of IHnCVC development in STEMI patients., (© 2022 Revista Medica del Instituto Mexicano del Seguro Social.)

Published

2022

4. A target enrichment probe set for resolving the flagellate land plant tree of life.

Author

Breinholt JW, Carey SB, Tiley GP, Davis EC, Endara L, McDaniel SF, Neves LG, Sessa EB, von Konrat M, Chantanaorrapint S, Fawcett S, Ickert-Bond SM, Labiak PH, Larraín J, Lehnert M, Lewis LR, Nagalingum NS, Patel N, Rensing SA, Testo W, Vasco A, Villarreal JC, Williams EW, and Burleigh JG

Abstract

Premise: New sequencing technologies facilitate the generation of large-scale molecular data sets for constructing the plant tree of life. We describe a new probe set for target enrichment sequencing to generate nuclear sequence data to build phylogenetic trees with any flagellate land plants, including hornworts, liverworts, mosses, lycophytes, ferns, and all gymnosperms., Methods: We leveraged existing transcriptome and genome sequence data to design the GoFlag 451 probes, a set of 56,989 probes for target enrichment sequencing of 451 exons that are found in 248 single-copy or low-copy nuclear genes across flagellate plant lineages., Results: Our results indicate that target enrichment using the GoFlag451 probe set can provide large nuclear data sets that can be used to resolve relationships among both distantly and closely related taxa across the flagellate land plants. We also describe the GoFlag 408 probes, an optimized probe set covering 408 of the 451 exons from the GoFlag 451 probe set that is commercialized by RAPiD Genomics., Conclusions: A target enrichment approach using the new probe set provides a relatively low-cost solution to obtain large-scale nuclear sequence data for inferring phylogenetic relationships across flagellate land plants., (© 2021 Breinholt et al. Applications in Plant Sciences is published by Wiley Periodicals, Inc. on behalf of the Botanical Society of America.)

Published

2021

5. The hornworts: morphology, evolution and development.

Author

Frangedakis E, Shimamura M, Villarreal JC, Li FW, Tomaselli M, Waller M, Sakakibara K, Renzaglia KS, and Szövényi P

Subjects

Evolution, Molecular, Phylogeny, Plants, Anthocerotophyta genetics, Bryophyta genetics, Embryophyta genetics

Abstract

Extant land plants consist of two deeply divergent groups, tracheophytes and bryophytes, which shared a common ancestor some 500 million years ago. While information about vascular plants and the two of the three lineages of bryophytes, the mosses and liverworts, is steadily accumulating, the biology of hornworts remains poorly explored. Yet, as the sister group to liverworts and mosses, hornworts are critical in understanding the evolution of key land plant traits. Until recently, there was no hornwort model species amenable to systematic experimental investigation, which hampered detailed insight into the molecular biology and genetics of this unique group of land plants. The emerging hornwort model species, Anthoceros agrestis, is instrumental in our efforts to better understand not only hornwort biology but also fundamental questions of land plant evolution. To this end, here we provide an overview of hornwort biology and current research on the model plant A. agrestis to highlight its potential in answering key questions of land plant biology and evolution., (© 2020 The Authors New Phytologist © 2020 New Phytologist Trust.)

Published

2021

6. Anthoceros genomes illuminate the origin of land plants and the unique biology of hornworts.

Author

Li FW, Nishiyama T, Waller M, Frangedakis E, Keller J, Li Z, Fernandez-Pozo N, Barker MS, Bennett T, Blázquez MA, Cheng S, Cuming AC, de Vries J, de Vries S, Delaux PM, Diop IS, Harrison CJ, Hauser D, Hernández-García J, Kirbis A, Meeks JC, Monte I, Mutte SK, Neubauer A, Quandt D, Robison T, Shimamura M, Rensing SA, Villarreal JC, Weijers D, Wicke S, Wong GK, Sakakibara K, and Szövényi P

Subjects

Anthocerotophyta genetics, Biological Evolution, Embryophyta physiology, Genome, Plant, Life History Traits

Abstract

Hornworts comprise a bryophyte lineage that diverged from other extant land plants >400 million years ago and bears unique biological features, including a distinct sporophyte architecture, cyanobacterial symbiosis and a pyrenoid-based carbon-concentrating mechanism (CCM). Here, we provide three high-quality genomes of Anthoceros hornworts. Phylogenomic analyses place hornworts as a sister clade to liverworts plus mosses with high support. The Anthoceros genomes lack repeat-dense centromeres as well as whole-genome duplication, and contain a limited transcription factor repertoire. Several genes involved in angiosperm meristem and stomatal function are conserved in Anthoceros and upregulated during sporophyte development, suggesting possible homologies at the genetic level. We identified candidate genes involved in cyanobacterial symbiosis and found that LCIB, a Chlamydomonas CCM gene, is present in hornworts but absent in other plant lineages, implying a possible conserved role in CCM function. We anticipate that these hornwort genomes will serve as essential references for future hornwort research and comparative studies across land plants.

Published

2020

7. Author Correction: Membrane protein megahertz crystallography at the European XFEL.

Author

Gisriel C, Coe J, Letrun R, Yefanov OM, Luna-Chavez C, Stander NE, Lisova S, Mariani V, Kuhn M, Aplin S, Grant TD, Dörner K, Sato T, Echelmeier A, Villarreal JC, Hunter MS, Wiedorn MO, Knoska J, Mazalova V, Roy-Chowdhury S, Yang JH, Jones A, Bean R, Bielecki J, Kim Y, Mills G, Weinhausen B, Meza JD, Al-Qudami N, Bajt S, Brehm G, Botha S, Boukhelef D, Brockhauser S, Bruce BD, Coleman MA, Danilevski C, Discianno E, Dobson Z, Fangohr H, Martin-Garcia JM, Gevorkov Y, Hauf S, Hosseinizadeh A, Januschek F, Ketawala GK, Kupitz C, Maia L, Manetti M, Messerschmidt M, Michelat T, Mondal J, Ourmazd A, Previtali G, Sarrou I, Schön S, Schwander P, Shelby ML, Silenzi A, Sztuk-Dambietz J, Szuba J, Turcato M, White TA, Wrona K, Xu C, Abdellatif MH, Zook JD, Spence JCH, Chapman HN, Barty A, Kirian RA, Frank M, Ros A, Schmidt M, Fromme R, Mancuso AP, Fromme P, and Zatsepin NA

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

8. Organellomic data sets confirm a cryptic consensus on (unrooted) land-plant relationships and provide new insights into bryophyte molecular evolution.

Author

Bell D, Lin Q, Gerelle WK, Joya S, Chang Y, Taylor ZN, Rothfels CJ, Larsson A, Villarreal JC, Li FW, Pokorny L, Szövényi P, Crandall-Stotler B, DeGironimo L, Floyd SK, Beerling DJ, Deyholos MK, von Konrat M, Ellis S, Shaw AJ, Chen T, Wong GK, Stevenson DW, Palmer JD, and Graham SW

Subjects

Consensus, Likelihood Functions, Phylogeny, Bryophyta, Evolution, Molecular

Abstract

Premise: Phylogenetic trees of bryophytes provide important evolutionary context for land plants. However, published inferences of overall embryophyte relationships vary considerably. We performed phylogenomic analyses of bryophytes and relatives using both mitochondrial and plastid gene sets, and investigated bryophyte plastome evolution., Methods: We employed diverse likelihood-based analyses to infer large-scale bryophyte phylogeny for mitochondrial and plastid data sets. We tested for changes in purifying selection in plastid genes of a mycoheterotrophic liverwort (Aneura mirabilis) and a putatively mycoheterotrophic moss (Buxbaumia), and compared 15 bryophyte plastomes for major structural rearrangements., Results: Overall land-plant relationships conflict across analyses, generally weakly. However, an underlying (unrooted) four-taxon tree is consistent across most analyses and published studies. Despite gene coverage patchiness, relationships within mosses, liverworts, and hornworts are largely congruent with previous studies, with plastid results generally better supported. Exclusion of RNA edit sites restores cases of unexpected non-monophyly to monophyly for Takakia and two hornwort genera. Relaxed purifying selection affects multiple plastid genes in mycoheterotrophic Aneura but not Buxbaumia. Plastid genome structure is nearly invariant across bryophytes, but the tufA locus, presumed lost in embryophytes, is unexpectedly retained in several mosses., Conclusions: A common unrooted tree underlies embryophyte phylogeny, [(liverworts, mosses), (hornworts, vascular plants)]; rooting inconsistency across studies likely reflects substantial distance to algal outgroups. Analyses combining genomic and transcriptomic data may be misled locally for heavily RNA-edited taxa. The Buxbaumia plastome lacks hallmarks of relaxed selection found in mycoheterotrophic Aneura. Autotrophic bryophyte plastomes, including Buxbaumia, hardly vary in overall structure., (© 2019 Botanical Society of America.)

Published

2020

9. Complete Genomes of Symbiotic Cyanobacteria Clarify the Evolution of Vanadium-Nitrogenase.

Author

Nelson JM, Hauser DA, Gudiño JA, Guadalupe YA, Meeks JC, Salazar Allen N, Villarreal JC, and Li FW

Subjects

Nitrogenase classification, Phylogeny, Plasmids genetics, RNA, Ribosomal, 16S genetics, Cyanobacteria genetics, Multigene Family genetics, Nitrogenase genetics

Abstract

Plant endosymbiosis with nitrogen-fixing cyanobacteria has independently evolved in diverse plant lineages, offering a unique window to study the evolution and genetics of plant-microbe interaction. However, very few complete genomes exist for plant cyanobionts, and therefore little is known about their genomic and functional diversity. Here, we present four complete genomes of cyanobacteria isolated from bryophytes. Nanopore long-read sequencing allowed us to obtain circular contigs for all the main chromosomes and most of the plasmids. We found that despite having a low 16S rRNA sequence divergence, the four isolates exhibit considerable genome reorganizations and variation in gene content. Furthermore, three of the four isolates possess genes encoding vanadium (V)-nitrogenase (vnf), which is uncommon among diazotrophs and has not been previously reported in plant cyanobionts. In two cases, the vnf genes were found on plasmids, implying possible plasmid-mediated horizontal gene transfers. Comparative genomic analysis of vnf-containing cyanobacteria further identified a conserved gene cluster. Many genes in this cluster have not been functionally characterized and would be promising candidates for future studies to elucidate V-nitrogenase function and regulation., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2019

10. Hornwort Stomata: Architecture and Fate Shared with 400-Million-Year-Old Fossil Plants without Leaves.

Author

Renzaglia KS, Villarreal JC, Piatkowski BT, Lucas JR, and Merced A

Subjects

Anthocerotophyta cytology, Cell Wall ultrastructure, Genome Size, Genome, Plant, Microscopy, Electron, Transmission, Pectins chemistry, Plant Stomata anatomy & histology, Plant Stomata genetics, Anthocerotophyta anatomy & histology, Fossils, Plant Cells ultrastructure, Plant Stomata cytology

Abstract

As one of the earliest plant groups to evolve stomata, hornworts are key to understanding the origin and function of stomata. Hornwort stomata are large and scattered on sporangia that grow from their bases and release spores at their tips. We present data from development and immunocytochemistry that identify a role for hornwort stomata that is correlated with sporangial and spore maturation. We measured guard cells across the genera with stomata to assess developmental changes in size and to analyze any correlation with genome size. Stomata form at the base of the sporophyte in the green region, where they develop differential wall thickenings, form a pore, and die. Guard cells collapse inwardly, increase in surface area, and remain perched over a substomatal cavity and network of intercellular spaces that is initially fluid filled. Following pore formation, the sporophyte dries from the outside inwardly and continues to do so after guard cells die and collapse. Spore tetrads develop in spore mother cell walls within a mucilaginous matrix, both of which progressively dry before sporophyte dehiscence. A lack of correlation between guard cell size and DNA content, lack of arabinans in cell walls, and perpetually open pores are consistent with the inactivity of hornwort stomata. Stomata are expendable in hornworts, as they have been lost twice in derived taxa. Guard cells and epidermal cells of hornworts show striking similarities with the earliest plant fossils. Our findings identify an architecture and fate of stomata in hornworts that is ancient and common to plants without sporophytic leaves., (© 2017 American Society of Plant Biologists. All Rights Reserved.)

Published

2017

11. Hornworts: An Overlooked Window into Carbon-Concentrating Mechanisms.

Author

Li FW, Villarreal JC, and Szövényi P

Subjects

Carbon Dioxide metabolism, Models, Biological, Anthocerotophyta metabolism, Carbon metabolism

Abstract

Hornworts are the only land plant lineage harboring a biophysical carbon-concentrating mechanism (CCM). Here, we argue that hornworts are a promising, yet currently overlooked, model system to study the evolution and genetic basis of CCMs. The results of such studies could have translational values toward engineering a CCM in crop plants., (Copyright © 2017. Published by Elsevier Ltd.)

Published

2017

12. World checklist of hornworts and liverworts.

Author

Söderström L, Hagborg A, von Konrat M, Bartholomew-Began S, Bell D, Briscoe L, Brown E, Cargill DC, Costa DP, Crandall-Stotler BJ, Cooper ED, Dauphin G, Engel JJ, Feldberg K, Glenny D, Gradstein SR, He X, Heinrichs J, Hentschel J, Ilkiu-Borges AL, Katagiri T, Konstantinova NA, Larraín J, Long DG, Nebel M, Pócs T, Puche F, Reiner-Drehwald E, Renner MA, Sass-Gyarmati A, Schäfer-Verwimp A, Moragues JG, Stotler RE, Sukkharak P, Thiers BM, Uribe J, Váňa J, Villarreal JC, Wigginton M, Zhang L, and Zhu RL

Abstract

A working checklist of accepted taxa worldwide is vital in achieving the goal of developing an online flora of all known plants by 2020 as part of the Global Strategy for Plant Conservation. We here present the first-ever worldwide checklist for liverworts (Marchantiophyta) and hornworts (Anthocerotophyta) that includes 7486 species in 398 genera representing 92 families from the two phyla. The checklist has far reaching implications and applications, including providing a valuable tool for taxonomists and systematists, analyzing phytogeographic and diversity patterns, aiding in the assessment of floristic and taxonomic knowledge, and identifying geographical gaps in our understanding of the global liverwort and hornwort flora. The checklist is derived from a working data set centralizing nomenclature, taxonomy and geography on a global scale. Prior to this effort a lack of centralization has been a major impediment for the study and analysis of species richness, conservation and systematic research at both regional and global scales. The success of this checklist, initiated in 2008, has been underpinned by its community approach involving taxonomic specialists working towards a consensus on taxonomy, nomenclature and distribution.

Published

2016

13. The origin and evolution of phototropins.

Author

Li FW, Rothfels CJ, Melkonian M, Villarreal JC, Stevenson DW, Graham SW, Wong GK, Mathews S, and Pryer KM

Abstract

Plant phototropism, the ability to bend toward or away from light, is predominantly controlled by blue-light photoreceptors, the phototropins. Although phototropins have been well-characterized in Arabidopsis thaliana, their evolutionary history is largely unknown. In this study, we complete an in-depth survey of phototropin homologs across land plants and algae using newly available transcriptomic and genomic data. We show that phototropins originated in an ancestor of Viridiplantae (land plants + green algae). Phototropins repeatedly underwent independent duplications in most major land-plant lineages (mosses, lycophytes, ferns, and seed plants), but remained single-copy genes in liverworts and hornworts-an evolutionary pattern shared with another family of photoreceptors, the phytochromes. Following each major duplication event, the phototropins differentiated in parallel, resulting in two specialized, yet partially overlapping, functional forms that primarily mediate either low- or high-light responses. Our detailed phylogeny enables us to not only uncover new phototropin lineages, but also link our understanding of phototropin function in Arabidopsis with what is known in Adiantum and Physcomitrella (the major model organisms outside of flowering plants). We propose that the convergent functional divergences of phototropin paralogs likely contributed to the success of plants through time in adapting to habitats with diverse and heterogeneous light conditions.

Published

2015

14. Phytochrome diversity in green plants and the origin of canonical plant phytochromes.

Author

Li FW, Melkonian M, Rothfels CJ, Villarreal JC, Stevenson DW, Graham SW, Wong GK, Pryer KM, and Mathews S

Subjects

Anthocerotophyta genetics, Base Sequence, Bryophyta genetics, Evolution, Molecular, Ferns genetics, Hepatophyta genetics, Lycopodium genetics, Molecular Sequence Data, Selaginellaceae genetics, Charophyceae genetics, Genetic Variation, Phytochrome genetics, Viridiplantae genetics

Abstract

Phytochromes are red/far-red photoreceptors that play essential roles in diverse plant morphogenetic and physiological responses to light. Despite their functional significance, phytochrome diversity and evolution across photosynthetic eukaryotes remain poorly understood. Using newly available transcriptomic and genomic data we show that canonical plant phytochromes originated in a common ancestor of streptophytes (charophyte algae and land plants). Phytochromes in charophyte algae are structurally diverse, including canonical and non-canonical forms, whereas in land plants, phytochrome structure is highly conserved. Liverworts, hornworts and Selaginella apparently possess a single phytochrome, whereas independent gene duplications occurred within mosses, lycopods, ferns and seed plants, leading to diverse phytochrome families in these clades. Surprisingly, the phytochrome portions of algal and land plant neochromes, a chimera of phytochrome and phototropin, appear to share a common origin. Our results reveal novel phytochrome clades and establish the basis for understanding phytochrome functional evolution in land plants and their algal relatives.

Published

2015

15. Phylotranscriptomic analysis of the origin and early diversification of land plants.

Author

Wickett NJ, Mirarab S, Nguyen N, Warnow T, Carpenter E, Matasci N, Ayyampalayam S, Barker MS, Burleigh JG, Gitzendanner MA, Ruhfel BR, Wafula E, Der JP, Graham SW, Mathews S, Melkonian M, Soltis DE, Soltis PS, Miles NW, Rothfels CJ, Pokorny L, Shaw AJ, DeGironimo L, Stevenson DW, Surek B, Villarreal JC, Roure B, Philippe H, dePamphilis CW, Chen T, Deyholos MK, Baucom RS, Kutchan TM, Augustin MM, Wang J, Zhang Y, Tian Z, Yan Z, Wu X, Sun X, Wong GK, and Leebens-Mack J

Subjects

DNA, Plant genetics, DNA, Plant metabolism, Gene Expression Profiling, Sequence Alignment, Streptophyta classification, Evolution, Molecular, Genome, Plant physiology, Phylogeny, Quantitative Trait, Heritable, Streptophyta physiology, Transcriptome physiology

Abstract

Reconstructing the origin and evolution of land plants and their algal relatives is a fundamental problem in plant phylogenetics, and is essential for understanding how critical adaptations arose, including the embryo, vascular tissue, seeds, and flowers. Despite advances in molecular systematics, some hypotheses of relationships remain weakly resolved. Inferring deep phylogenies with bouts of rapid diversification can be problematic; however, genome-scale data should significantly increase the number of informative characters for analyses. Recent phylogenomic reconstructions focused on the major divergences of plants have resulted in promising but inconsistent results. One limitation is sparse taxon sampling, likely resulting from the difficulty and cost of data generation. To address this limitation, transcriptome data for 92 streptophyte taxa were generated and analyzed along with 11 published plant genome sequences. Phylogenetic reconstructions were conducted using up to 852 nuclear genes and 1,701,170 aligned sites. Sixty-nine analyses were performed to test the robustness of phylogenetic inferences to permutations of the data matrix or to phylogenetic method, including supermatrix, supertree, and coalescent-based approaches, maximum-likelihood and Bayesian methods, partitioned and unpartitioned analyses, and amino acid versus DNA alignments. Among other results, we find robust support for a sister-group relationship between land plants and one group of streptophyte green algae, the Zygnematophyceae. Strong and robust support for a clade comprising liverworts and mosses is inconsistent with a widely accepted view of early land plant evolution, and suggests that phylogenetic hypotheses used to understand the evolution of fundamental plant traits should be reevaluated.

Published

2014

16. Data access for the 1,000 Plants (1KP) project.

Author

Matasci N, Hung LH, Yan Z, Carpenter EJ, Wickett NJ, Mirarab S, Nguyen N, Warnow T, Ayyampalayam S, Barker M, Burleigh JG, Gitzendanner MA, Wafula E, Der JP, dePamphilis CW, Roure B, Philippe H, Ruhfel BR, Miles NW, Graham SW, Mathews S, Surek B, Melkonian M, Soltis DE, Soltis PS, Rothfels C, Pokorny L, Shaw JA, DeGironimo L, Stevenson DW, Villarreal JC, Chen T, Kutchan TM, Rolf M, Baucom RS, Deyholos MK, Samudrala R, Tian Z, Wu X, Sun X, Zhang Y, Wang J, Leebens-Mack J, and Wong GK

Abstract

The 1,000 plants (1KP) project is an international multi-disciplinary consortium that has generated transcriptome data from over 1,000 plant species, with exemplars for all of the major lineages across the Viridiplantae (green plants) clade. Here, we describe how to access the data used in a phylogenomics analysis of the first 85 species, and how to visualize our gene and species trees. Users can develop computational pipelines to analyse these data, in conjunction with data of their own that they can upload. Computationally estimated protein-protein interactions and biochemical pathways can be visualized at another site. Finally, we comment on our future plans and how they fit within this scalable system for the dissemination, visualization, and analysis of large multi-species data sets.

Published

2014

17. Extant diversity of bryophytes emerged from successive post-Mesozoic diversification bursts.

Author

Laenen B, Shaw B, Schneider H, Goffinet B, Paradis E, Désamoré A, Heinrichs J, Villarreal JC, Gradstein SR, McDaniel SF, Long DG, Forrest LL, Hollingsworth ML, Crandall-Stotler B, Davis EC, Engel J, Von Konrat M, Cooper ED, Patiño J, Cox CJ, Vanderpoorten A, and Shaw AJ

Abstract

Unraveling the macroevolutionary history of bryophytes, which arose soon after the origin of land plants but exhibit substantially lower species richness than the more recently derived angiosperms, has been challenged by the scarce fossil record. Here we demonstrate that overall estimates of net species diversification are approximately half those reported in ferns and ∼30% those described for angiosperms. Nevertheless, statistical rate analyses on time-calibrated large-scale phylogenies reveal that mosses and liverworts underwent bursts of diversification since the mid-Mesozoic. The diversification rates further increase in specific lineages towards the Cenozoic to reach, in the most recently derived lineages, values that are comparable to those reported in angiosperms. This suggests that low diversification rates do not fully account for current patterns of bryophyte species richness, and we hypothesize that, as in gymnosperms, the low extant bryophyte species richness also results from massive extinctions.

Published

2014

18. A review of molecular-clock calibrations and substitution rates in liverworts, mosses, and hornworts, and a timeframe for a taxonomically cleaned-up genus Nothoceros.

Author

Villarreal JC and Renner SS

Subjects

Anthocerotophyta genetics, Bryophyta genetics, Calibration, Fossils, Hepatophyta genetics, Anthocerotophyta classification, Bryophyta classification, Hepatophyta classification, Phylogeny

Abstract

Absolute times from calibrated DNA phylogenies can be used to infer lineage diversification, the origin of new ecological niches, or the role of long distance dispersal in shaping current distribution patterns. Molecular-clock dating of non-vascular plants, however, has lagged behind flowering plant and animal dating. Here, we review dating studies that have focused on bryophytes with several goals in mind, (i) to facilitate cross-validation by comparing rates and times obtained so far; (ii) to summarize rates that have yielded plausible results and that could be used in future studies; and (iii) to calibrate a species-level phylogeny for Nothoceros, a model for plastid genome evolution in hornworts. Including the present work, there have been 18 molecular clock studies of liverworts, mosses, or hornworts, the majority with fossil calibrations, a few with geological calibrations or dated with previously published plastid substitution rates. Over half the studies cross-validated inferred divergence times by using alternative calibration approaches. Plastid substitution rates inferred for "bryophytes" are in line with those found in angiosperm studies, implying that bryophyte clock models can be calibrated either with published substitution rates or with fossils, with the two approaches testing and cross-validating each other. Our phylogeny of Nothoceros is based on 44 accessions representing all suspected species and a matrix of six markers of nuclear, plastid, and mitochondrial DNA. The results show that Nothoceros comprises 10 species, nine in the Americas and one in New Zealand (N. giganteus), with the divergence between the New Zealand species and its Chilean sister species dated to the Miocene and therefore due to long-distance dispersal. Based on the new tree, we formally transfer two species of Megaceros into Nothoceros, resulting in the new combinations N. minarum (Nees) J.C. Villarreal and N. schizophyllus (Gottsche ex Steph.) J.C. Villarreal, and we also newly synonymize eight names described in Megaceros., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

19. Horizontal transfer of an adaptive chimeric photoreceptor from bryophytes to ferns.

Author

Li FW, Villarreal JC, Kelly S, Rothfels CJ, Melkonian M, Frangedakis E, Ruhsam M, Sigel EM, Der JP, Pittermann J, Burge DO, Pokorny L, Larsson A, Chen T, Weststrand S, Thomas P, Carpenter E, Zhang Y, Tian Z, Chen L, Yan Z, Zhu Y, Sun X, Wang J, Stevenson DW, Crandall-Stotler BJ, Shaw AJ, Deyholos MK, Soltis DE, Graham SW, Windham MD, Langdale JA, Wong GK, Mathews S, and Pryer KM

Subjects

Algal Proteins genetics, Anthocerotophyta genetics, Base Sequence, DNA, Plant genetics, Evolution, Molecular, Genes, Plant, Molecular Sequence Data, Phototropins genetics, Phylogeny, Phytochrome genetics, Recombinant Fusion Proteins genetics, Transcriptome, Xanthophylls genetics, Bryophyta genetics, Ferns genetics, Gene Transfer, Horizontal, Photoreceptors, Plant genetics

Abstract

Ferns are well known for their shade-dwelling habits. Their ability to thrive under low-light conditions has been linked to the evolution of a novel chimeric photoreceptor--neochrome--that fuses red-sensing phytochrome and blue-sensing phototropin modules into a single gene, thereby optimizing phototropic responses. Despite being implicated in facilitating the diversification of modern ferns, the origin of neochrome has remained a mystery. We present evidence for neochrome in hornworts (a bryophyte lineage) and demonstrate that ferns acquired neochrome from hornworts via horizontal gene transfer (HGT). Fern neochromes are nested within hornwort neochromes in our large-scale phylogenetic reconstructions of phototropin and phytochrome gene families. Divergence date estimates further support the HGT hypothesis, with fern and hornwort neochromes diverging 179 Mya, long after the split between the two plant lineages (at least 400 Mya). By analyzing the draft genome of the hornwort Anthoceros punctatus, we also discovered a previously unidentified phototropin gene that likely represents the ancestral lineage of the neochrome phototropin module. Thus, a neochrome originating in hornworts was transferred horizontally to ferns, where it may have played a significant role in the diversification of modern ferns.

Published

2014

20. Correlates of monoicy and dioicy in hornworts, the apparent sister group to vascular plants.

Author

Villarreal JC and Renner SS

Subjects

Anthocerotophyta classification, Anthocerotophyta genetics, Genetic Variation, Phylogeny, Plants classification, Plants genetics, Reproduction, Anthocerotophyta physiology

Abstract

Background: Whether male and female gametes are produced by single or separate individuals shapes plant mating and hence patterns of genetic diversity among and within populations. Haploid-dominant plants ("bryophytes": liverworts, mosses and hornworts) can have unisexual (dioicous) or bisexual (monoicous) gametophytes, and today, 68% of liverwort species, 57% of moss species, and 40% of hornwort species are dioicous. The transitions between the two sexual systems and possible correlations with other traits have been studied in liverworts and mosses, but not hornworts. Here we use a phylogeny for 98 of the 200 species of hornworts, the sister group to vascular plants, representing roughly equal proportions of all monoicous and all dioicous species, to test whether transitions in sexual systems are predominantly from monoicy to dioicy as might be expected based on studies of mosses. We further investigate possible correlations between sexual system and spore size, antheridium number, ploidy level, and diversification rate, with character selection partly based on findings in mosses and liverworts., Results: Hornworts underwent numerous transitions between monoicy and dioicy. The transition rate from dioicy to monoicy was 2× higher than in the opposite direction, but monoicous groups have higher extinction rates; diversification rates do not correlate with sexual system. A correlation important in mosses, that between monoicy and polyploidy, apparently plays a small role: of 20 species with chromosome counts, only one is polyploid, the monoicous Anthoceros punctatus. A contingency test revealed that transitions to dioicy were more likely in species with small spores, supporting the hypothesis that small but numerous spores may be advantageous for dioicous species that depend on dense carpets of gametophytes for reproductive assurance. However, we found no evidence for increased antheridium-per-chamber numbers in dioicous species., Conclusions: Sexual systems in hornworts are labile, and the higher number of extant monoicous species (60%) may be largely due to frequent transitions to monoicy.

Published

2013

21. Genome size increases in recently diverged hornwort clades.

Author

Bainard JD and Villarreal JC

Subjects

Evolution, Molecular, Flow Cytometry, Genetic Variation, Phylogeny, Plants classification, Plants genetics, Polyploidy, Anthocerotophyta classification, Anthocerotophyta genetics, Genome Size, Genome, Plant

Abstract

As our knowledge of plant genome size estimates continues to grow, one group has continually been neglected: the hornworts. Hornworts (Anthocerotophyta) have been traditionally grouped with liverworts and mosses because they share a haploid dominant life cycle; however, recent molecular studies place hornworts as the sister lineage to extant tracheophytes. Given the scarcity of information regarding the DNA content of hornworts, our objective was to estimate the 1C-value for a range of hornwort species within a phylogenetic context. Using flow cytometry, we estimated genome size for 36 samples representing 24 species. This accounts for roughly 10% of known hornwort species. Haploid genome sizes (1C-value) ranged from 160 Mbp or 0.16 pg (Leiosporoceros dussii) to 719 Mbp or 0.73 pg (Nothoceros endiviifolius). The average 1C-value was 261 ± 104 Mbp (0.27 ± 0.11 pg). Ancestral reconstruction of genome size on a hornwort phylogeny suggests a small ancestral genome size and revealed increases in genome size in the most recently divergent clades. Much more work is needed to understand DNA content variation in this phylogenetically important group, but this work has significantly increased our knowledge of genome size variation in hornworts.

Published

2013

22. Fungal symbioses in hornworts: a chequered history.

Author

Desirò A, Duckett JG, Pressel S, Villarreal JC, and Bidartondo MI

Subjects

Anthocerotophyta genetics, Anthocerotophyta growth & development, Cloning, Molecular, DNA genetics, DNA metabolism, Evolution, Molecular, Fungi classification, Fungi genetics, Fungi growth & development, Glomeromycota classification, Glomeromycota genetics, Glomeromycota growth & development, Glomeromycota physiology, Microscopy, Electron, Scanning, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Ribulose-Bisphosphate Carboxylase genetics, Ribulose-Bisphosphate Carboxylase metabolism, Sequence Analysis, DNA, Sequence Homology, Anthocerotophyta physiology, Biological Evolution, Fungi physiology, Symbiosis

Abstract

Hornworts are considered the sister group to vascular plants, but their fungal associations remain largely unexplored. The ancestral symbiotic condition for all plants is, nonetheless, widely assumed to be arbuscular mycorrhizal with Glomeromycota fungi. Owing to a recent report of other fungi in some non-vascular plants, here we investigate the fungi associated with diverse hornworts worldwide, using electron microscopy and molecular phylogenetics. We found that both Glomeromycota and Mucoromycotina fungi can form symbioses with most hornworts, often simultaneously. This discovery indicates that ancient terrestrial plants relied on a wider and more versatile symbiotic repertoire than previously thought, and it highlights the so far unappreciated ecological and evolutionary role of Mucoromycotina fungi.

Published

2013

23. The plastid genome of the hornwort Nothoceros aenigmaticus (Dendrocerotaceae): phylogenetic signal in inverted repeat expansion, pseudogenization, and intron gain.

Author

Villarreal JC, Forrest LL, Wickett N, and Goffinet B

Subjects

Base Sequence, Genes, Plant genetics, Molecular Sequence Data, Plant Proteins genetics, Plant Proteins metabolism, Sequence Alignment, Anthocerotophyta genetics, Genome, Plastid genetics, Introns genetics, Inverted Repeat Sequences genetics, Phylogeny, Pseudogenes genetics

Abstract

Premise of the Study: The previously sequenced plastome of the hornwort Anthoceros angustus differs from that of other bryophytes by an expanded inverted repeat (IR) and the presence of a type I intron in the 23S ribosomal RNA (rrn23) gene. We assembled the plastome of the hornwort Nothoceros aenigmaticus, contrasted its architecture to that of other bryophytes, and assessed the phylogenetic significance of genomic characters in hornwort evolution. •, Methods: The Nothoceros plastome was reconstructed from shotgun sequencing of genomic DNA. Comparison with the Anthoceros plastome revealed three structural differences. We sequenced these regions in taxa spanning the hornwort phylogeny. •, Key Results: The Nothoceros plastome is colinear with other bryophyte plastomes, but differs from the Anthoceros plastome by several gene regions located within the IR in Anthoceros being in the large single-copy region in Nothoceros, by the rrn23 gene lacking an intron, and by the rpl2 being a pseudogene. Comparisons across the hornwort phylogeny indicate that the first two characters are restricted to Anthocerotaceae, while rpl2 pseudogenization diagnoses the sister lineage to Anthocerotaceae. •, Conclusions: The Nothoceros plastome is structurally similar to that of most bryophytes. However, we identified more structural differences within hornworts than have been described within either the mosses or the liverworts. The distribution of the gene duplication involving the IR and an intron in the rrn23 gene are restricted to Anthocerotaceae. Occurrence of the intron and the conserved intron sequence between Anthoceros and distantly related chlorophyte algae may be due to horizontal gene transfer.

Published

2013

24. Hornwort pyrenoids, carbon-concentrating structures, evolved and were lost at least five times during the last 100 million years.

Author

Villarreal JC and Renner SS

Subjects

Anthocerotophyta genetics, Ribulose-Bisphosphate Carboxylase genetics, Ribulose-Bisphosphate Carboxylase metabolism, Anthocerotophyta metabolism, Carbon Dioxide metabolism, Evolution, Molecular, Photosynthesis physiology, Pyrenes

Abstract

Ribulose-1,5-biphosphate-carboxylase-oxygenase (RuBisCO) has a crucial role in carbon fixation but a slow catalytic rate, a problem overcome in some plant lineages by physiological and anatomical traits that elevate carbon concentrations around the enzyme. Such carbon-concentrating mechanisms are hypothesized to have evolved during periods of low atmospheric CO(2). Hornworts, the sister to vascular plants, have a carbon-concentrating mechanism that relies on pyrenoids, proteinaceous bodies mostly consisting of RuBisCO. We generated a phylogeny based on mitochondrial and plastid sequences for 36% of the approximately 200 hornwort species to infer the history of gains and losses of pyrenoids in this clade; we also used fossils and multiple dating approaches to generate a chronogram for the hornworts. The results imply five to six origins and an equal number of subsequent losses of pyrenoids in hornworts, with the oldest pyrenoid gained ca. 100 Mya, and most others at <35 Mya. The nonsynchronous appearance of pyrenoid-containing clades, the successful diversification of pyrenoid-lacking clades during periods with low [CO(2)], and the maintenance of pyrenoids during episodes of high [CO(2)] all argue against the previously proposed relationship between pyrenoid origin and low [CO(2)]. The selective advantages, and costs, of hornwort pyrenoids thus must relate to additional factors besides atmospheric CO(2).

Published

2012

25. Chloroplast, mitochondrial, and nuclear microsatellites from the southern Appalachian hornwort, Nothoceros aenigmaticus (Dendrocerotaceae).

Author

Villarreal JC, Forrest LL, McFarland K, and Goffinet B

Subjects

Genetic Variation, Species Specificity, DNA, Chloroplast genetics, DNA, Mitochondrial genetics, DNA, Plant genetics, Microsatellite Repeats genetics, Plants genetics

Abstract

Premise of the Study: New microsatellite primers were developed for testing genetic differentiation within Nothoceros aenigmaticus and their potential use in other Nothoceros species. The microsatellites are designed to investigate partitioning of genetic variation in a taxon with a peculiar sex allopatry in the southern Appalachian Mountains and relationships with conspecific sexual populations from Mexico., Methods and Results: We used two methods for microsatellite development: an enriched library and second-generation shotgun sequence reads. From these two methods, a total of nine primer pairs were selected and tested on 89 southern Appalachian N. aenigmaticus accessions, nine Mexican accessions, and 16 N. vincentianus accessions. Three mitochondrial loci were recovered from the enriched library method and six loci from 454 shotgun sequencing: three were from the chloroplast and three from the nucleus. The primers amplified repeats with two to 20 alleles per locus., Conclusions: New microsatellite primers were developed for testing genetic differentiation within N. aenigmaticus and potentially for use in other Nothoceros species. We present one of the first reports of highly polymorphic mitochondrial microsatellites in plants.

Published

2012

26. Evaluating methods for isolating total RNA and predicting the success of sequencing phylogenetically diverse plant transcriptomes.

Author

Johnson MT, Carpenter EJ, Tian Z, Bruskiewich R, Burris JN, Carrigan CT, Chase MW, Clarke ND, Covshoff S, Depamphilis CW, Edger PP, Goh F, Graham S, Greiner S, Hibberd JM, Jordon-Thaden I, Kutchan TM, Leebens-Mack J, Melkonian M, Miles N, Myburg H, Patterson J, Pires JC, Ralph P, Rolf M, Sage RF, Soltis D, Soltis P, Stevenson D, Stewart CN Jr, Surek B, Thomsen CJ, Villarreal JC, Wu X, Zhang Y, Deyholos MK, and Wong GK

Subjects

Base Sequence, Gene Expression Profiling, High-Throughput Nucleotide Sequencing methods, Phylogeny, Plants classification, RNA, Plant classification, RNA, Plant standards, Sequence Analysis, RNA, Flowers genetics, Genome, Plant, High-Throughput Nucleotide Sequencing standards, Plant Leaves genetics, Plants genetics, RNA, Plant genetics, RNA, Plant isolation & purification

Abstract

Next-generation sequencing plays a central role in the characterization and quantification of transcriptomes. Although numerous metrics are purported to quantify the quality of RNA, there have been no large-scale empirical evaluations of the major determinants of sequencing success. We used a combination of existing and newly developed methods to isolate total RNA from 1115 samples from 695 plant species in 324 families, which represents >900 million years of phylogenetic diversity from green algae through flowering plants, including many plants of economic importance. We then sequenced 629 of these samples on Illumina GAIIx and HiSeq platforms and performed a large comparative analysis to identify predictors of RNA quality and the diversity of putative genes (scaffolds) expressed within samples. Tissue types (e.g., leaf vs. flower) varied in RNA quality, sequencing depth and the number of scaffolds. Tissue age also influenced RNA quality but not the number of scaffolds ≥ 1000 bp. Overall, 36% of the variation in the number of scaffolds was explained by metrics of RNA integrity (RIN score), RNA purity (OD 260/230), sequencing platform (GAIIx vs HiSeq) and the amount of total RNA used for sequencing. However, our results show that the most commonly used measures of RNA quality (e.g., RIN) are weak predictors of the number of scaffolds because Illumina sequencing is robust to variation in RNA quality. These results provide novel insight into the methods that are most important in isolating high quality RNA for sequencing and assembling plant transcriptomes. The methods and recommendations provided here could increase the efficiency and decrease the cost of RNA sequencing for individual labs and genome centers.

Published

2012

27. In ovum exposure to pesticides increases the egg weight loss and decreases hatchlings weight of Caiman latirostris (Crocodylia: Alligatoridae).

Author

Beldomenico PM, Rey F, Prado WS, Villarreal JC, Muñoz-de-Toro M, and Luque EH

Subjects

Alligators and Crocodiles embryology, Animals, Animals, Newborn, Body Weight drug effects, Embryo, Nonmammalian drug effects, Environmental Monitoring, Female, Male, Pregnancy, Sex Determination Processes, Sex Ratio, Alligators and Crocodiles growth & development, Atrazine toxicity, Endocrine Disruptors toxicity, Endosulfan toxicity, Estradiol toxicity, Pesticides toxicity, Prenatal Exposure Delayed Effects

Abstract

The increasing use of pesticides affects ecosystem health. Caiman latirostris is a South American species with ecological and physiological features that render it vulnerable to exposure to pesticides with endocrine disruptor's action. Our main objective was to test the effect of in ovum exposure to atrazine and endosulfan on the sex ratio of caiman hatchlings; however, we are also presenting unexpected findings regarding pesticide effects on egg weight loss during incubation and hatchlings relative weight. Caiman eggs were incubated under controlled temperature (30 and 33 degrees C) and humidity (>90%). They were treated with vehicle, 17 beta-estradiol (1.4ppm), atrazine (0.2ppm) and endosulfan (0.02; 2; 20ppm). Pesticides did not cause estrogen-like effects on sex determination. Greater egg weight loss was observed in eggs treated with atrazine and higher doses of endosulfan (2 and 20ppm) (p=0.0005). These pesticides also caused a reduction in hatchling fractional weight (p=0.0497). These effects might have a significant impact on caiman population dynamics.

Published

2007