Ecological separation among fern species in an old-growth forest

Karst, Justine.

January 2001

No description available.

Niche (Ecology)

Seeing the Light: the Origin and Evolution of Plant Photoreceptors

Li, Fay-Wei

January 2015

<p>Plants use an array of photoreceptors to measure the quality, quantity, and direction of light in order to respond to ever-changing light environments. Photoreceptors not only determine how and when individual plants complete their life cycles, but they also have a profound and long-term macroevolutionary influence on species diversification. Despite their significances, very little is known about photoreceptors across plants as whole, and we lack a comprehensive view of photoreceptor evolution. </p><p> In my dissertation, I investigate the origin and evolution of three of the most prominent photoreceptor gene families in plants: phytochromes, phototropins and neochromes. Using newly available transcriptomic and genomic data, I completed the first in-depth survey of these photoreceptor families across land plants, green algae, red algae, glaucophytes, cryptophytes, haptophytes, and stramenopiles. </p><p> Phytochromes are red/far-red photoreceptors that play essential roles in seed germination, seedling photomorphogenesis, shade-avoidance, dormancy, circadian rhythm, phototropism, and flowering. Here, I show that the canonical plant phytochromes originated in a common ancestor of streptophytes (charophyte green algae plus land plants), and I identify the most likely sequence whereby the plant phytochrome structure evolved from its ancestral phytochrome. 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 gene copy, whereas independent gene duplications occurred within mosses, lycopods, ferns, and seed plants, leading to diverse phytochrome families in these clades. My detailed phylogeny encompasses all of green plants and enables me to not only uncover new phytochrome lineages, but also to make links to our current understanding of phytochrome function in Arabidopsis and Physcomitrella (the major model organism outside of flowering plants). Based on this robust evolutionary framework, I propose new hypotheses and discuss future directions to study phytochrome mechanisms.</p><p> Phototropins are blue-light photoreceptors that regulate key adaptive physiological responses, including shoot-positive phototropism, root-negative phototropism, chloroplast accumulation/avoidance, stomatal opening, circadian rhythm, leaf expansion, and seedling elongation I show that phototropins originated in the common ancestor of Viridiplantae (all green algae [charophytes, chlorophytes, prasinophytes] plus land plants). Phototropins repeatedly underwent independent duplications in all major plant lineages (mosses, lycopods, ferns and seed plants), except for liverworts and hornworts, where phototropin is a single-copy gene. Following each major duplication event, phototropins subsequently differentiated in parallel, resulting in two specialized (yet partially overlapping) functional forms that primarily mediate either low- or high-light responses. My gene phylogeny further suggests that phototropins have co-evolved with phytochromes, as is evident from their molecular interactions and strikingly similar gene duplication patterns. I hypothesize that the co-evolution of phototropins with phytochromes, together with their subsequent convergent functional divergences in phototropic responses, contributed to the success of plants in adapting to diverse and heterogeneous habitats.</p><p> Neochromes are chimeric photoreceptors that, by fusing phytochrome and phototropin modules into a single protein, are able to use both red/far-red and blue light to modulate phototropic responses. Neochromes were first discovered in ferns, and the evolution of neochromes was implicated as a key innovation that facilitated fern diversification under the low-light angiosperm canopies. Despite its significance from an evolutionary standpoint, the origin of neochromes has remained a mystery. Here I present the first 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 my 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 Anthoceros punctatus hornwort, I also discovered a novel phototropin gene that likely represents the ancestral lineage of the neochrome phototropin module. Thus, a neochrome originating in hornworts was horizontally transferred to ferns, where it may have played a significant role in the diversification of modern ferns. </p><p> In summary, my studies identified the molecular origins of phytochromes, phototropins and neochromes, and reconstructed their respective evolutionary histories. This new framework for photoreceptor evolution will stimulate new research linking ecology, evolution, and photochemistry to understand how plants adapt to variable light environments.</p> / Dissertation

Biology

Plant biology

ferns

horizontal gene transfer

hornworts

neochrome

phototropin

phytochrome

Evolutionary Patterns and Processes in the Desert-Adapted Fern Genus Myriopteris (Pteridaceae)

Grusz, Amanda Lee

January 2014

<p>This dissertation investigates the processes of hybridation, polyploidy, and apomixis and their roles in the evolution of myriopterid ferns. First, I examine patterns of hybridization in members of the Cheilanthes yavapensis complex using a suite of techiniques, ranging from molecules to morphology--including isozymes, spore measurements, and molecular phylogenetics based on chloroplast and nuclear DNA markers--to elucidate relationships in this notorious group of ferns. Second, I utilize the rules of traditional taxonomy set by the International Code of Botanical Nomenclature to recircucmscribe and resurrect the genus Myriopteris from within cheilanthoid ferns. This revised classification is bolstered by results from my molecular phylogenetic analysis of DNA sequence data in the subsequent chapter. Then, using morphological and cytological analyses, I examine the evolution of indument, leaf and rachis shape, vernation, chromosome number, and reproductive mode across the myriopterid tree. In my concluding chapter I develop microsatellite markers for the apomictic triploid, M. lindheiemeri, and explore whether premeiotic chromosome duplication facilitates the production of genetically distinct offspring in this otherwise asexual lineage.</p> / Dissertation

Systematic biology

Genetics

apomixis

asexual

cheilanthoid ferns

genetic variation

Myriopteris

Pteridaceae

Desenvolvimento do aerênquima em raízes de Cebatopteris richardii brongn. (PTERIDACEAE) submetidas a estresse hídrico

Garcia, Juliana Bittencourt

January 2016

O aerênquima é um tecido vegetal com grandes lacunas de ar que podem ter função de circulação de gases e/ou sustentação de órgãos, estando presente nas raízes e órgãos aéreos de plantas aquáticas ou sob alagamento, podendo ainda ser formado em decorrência de algum estresse. Ceratopteris richardii é uma planta aquática, de hábito anfíbio que apresenta aerênquima em seus órgãos vegetativos. Dessa forma, esse trabalho buscou analisar a formação de aerênquima nas raízes e pecíolo desta espécie frente a uma situação de restrição hídrica e verificar sua plasticidade fenotípica. Vinte indivíduos de C. richardii foram cultivados e submetidos a um tratamento com diferentes concentrações de PEG 6000. Em todas as amostras analisadas, foi observada a formação de aerênquima. A análise qualitativa mostrou diferença entre os tratamentos, porém, a análise estatística revelou que as diferenças não são significativas para o número amostral empregado. Variações de crescimento do esporófito revelaram que a espécie de estudo modificou algumas características de desenvolvimento em resposta a restrição hídrica. Tais resultados revelam importantes características para esta espécie, que parece aclimatar-se a situação de estresse a qual foi submetida. Com base nisso, sugere-se ampliar estes estudos para elucidar questões relacionadas a formação de aerênquima e o ambiente, seja para esta espécie ou de outro grupo taxonômico. / Aerenchyma is a plant tissue with large air gaps that may have gas circulation function and / or sustain organs. This structure is present in roots and aerial organs of water plants and in plants under flooding it may also be formed during some stress. Ceratopteris richardii is an aquatic plant, with amphibious habit that has aerenchyma in their vegetative organs. Thus, the aim of this study is analyze the aerenchyma formation in roots and stem of this specie under water restriction situation and verify their phenotypic plasticity. Twenty specimen of C. richardii were cultured and subjected to treatment with different concentrations of PEG 6000. In all samples, were observed aerenchyma formation. Qualitative analysis showed differences among treatments, however, the statistical analysis revealed that the differences are not significant for the sample size. Sporophyte growth variations revealed that the specie of study modified some growth characteristics in response to water restriction. These results reveal important characteristics for C. richardii, which seems to acclimatize the stress situation which has submitted. On the base that, it is suggested further studies to become clearer the relation between aerenchyma formation and environment, even to either this species or another taxonomic group.

Aerênquima

Ceratopteris richardii

Plantas aquáticas

Samambaias

Aerenchyma

Aquatic plants

Ferns

Phenotypic plasticity

Water restriction

Fungal Endophytes in a Seed-Free Host: New Species that Demonstrate Unique Community Dynamics

Younginger, Brett Steven

23 May 2018

Fungal endophytes are highly diverse, cryptic plant endosymbionts that form asymptomatic infections within host tissue. They represent a large fraction of the millions of undescribed fungal taxa on our planet with some demonstrating mutualistic benefits to their hosts including herbivore and pathogen defense and abiotic stress tolerance. Other endophytes are latent saprotrophs or pathogens, awaiting host plant senescence to begin alternative stages of their life cycles. Most, however, are likely plant commensals with no observable benefits to their hosts while under study. Yet, when considering the context-dependence that may determine plant resistance to pathogen attack, the consortium of endophytes present in the host could alter these outcomes, thereby affecting plant evolution. Despite the excitement of exploiting endophytes for their potential to produce bioactive compounds that are useful to medicine and agriculture, fungal endophyte community ecology is a lagging field. Much remains unknown regarding their colonization patterns within hosts, their spatial and temporal turnover and their diversity. Further, a severe deficiency exists in work on endophytes in seed-free plants, particularly ferns. Since ferns exist in free-living forms in both the haploid and diploid stages, are the second largest group of vascular plants, occupy important ecological niches and represent an older lineage of land plants, this is a major shortcoming in our understanding of plant-fungal ecology and evolution. For these reasons, I have examined endophyte community ecology in a widespread fern host in the Pacific Northwest, Polystichum munitum, addressing several gaps in the endophyte literature. Since an understanding of the degree of early endophyte colonization, temporal turnover and the relative contribution of priority effects to community composition are unknown, I conducted a temporal survey of fern endophyte communities utilizing culture-independent, next-generation sequencing on a monthly basis for an entire growing season. A high degree of temporal turnover was observed early in the growing season, where a late colonist rapidly took over the fern population and persisted throughout the year. This colonist, which was isolated from several of the same plants, appears to support growth rates of the host plant when in the gametophytic stage, but is not highly competitive against other endophytes in vitro. Additionally, in an effort to examine host and habitat specificity I examined the spatial turnover of endophytes across four distinct habitat types: a coastal site, a coniferous understory site, a montane site near Mount Saint Helens but not impacted by the 1980 eruption, and a secondary succession site at Mount Saint Helens, spanning 150-km at a single point in time. A high degree of host specificity was found when compared to endophyte communities in neighboring plant taxa and a lack of distance decay was also observed contrasting with other work examining endophyte biogeographic patterns. We conclude that a high degree of host filtering, combined with an abundance of senescent fern material around the base of the plant--which potentially serves as a reservoir of endophyte inoculum--is likely responsible for the observed results. In the process of the ecological studies described above, I isolated over 500 strains of endophytes that corresponded to ca. 100 operational taxonomic units (OTUs). Four of these OTUs are previously undescribed and form a new family and genus, Catenosporaceae and Catenospora, respectively. One of these taxa is responsible for the strong spatial and temporal signals found in the ecological studies. We emphasize that future work should examine if the same phenomena are observed in other fern systems and further encourage endophyte researchers to expand the scope of their investigations into non-traditional plant lineages, as exciting ecological interactions that contribute to our understanding endophyte ecology--and community ecology as a whole--are waiting to be discovered.

Endophytic fungi -- Ecology

Fungal communities

Polystichum

Ferns -- Pacific Northwest

Biology

Fungi

A Next-Generation Approach to Systematics in the Classic Reticulate <italic>Polypodium vulgare<italic> Species Complex (Polypodiaceae)

Sigel, Erin Mackey

January 2014

<p>The <italic>Polypodium vulgare<italic> complex (Polypodiaceae) comprises a well-studied group of fern taxa whose members are cryptically differentiated morphologically and have generated a confusing and highly reticulate species cluster. Once considered a single species spanning much of northern Eurasia and North America, <italic>P. vulgare<italic> has been segregated into approximately 17 diploid and polyploid taxa as a result of cytotaxonomic work, hybridization experiments, and isozyme studies conducted during the 20th century. Despite considerable effort, however, the evolutionary relationships among the diploid members of the <italic>P. vulgare<italic> complex remain poorly resolved, and several taxa, particularly allopolyploids and their diploid progenitors, remain challenging to delineate morphologically due to a dearth of stable diagnostic characters. Furthermore, compared to many well-studied angiosperm reticulate complexes, relatively little is known about the number of independently-derived lineages, distribution, and evolutionary significance of the allopolyploid species that have formed recurrently. This dissertation is an attempt to advance systematic knowledge of the <italic>Polypodium vulgare<italic> complex and establish it as a "model" system for investigating the evolutionary consequences of allopolyploidy in ferns. </p><p>Chapter I presents a diploids-only phylogeny of the <italic>P. vulgare<italic> complex and related species to test previous hypotheses concerning relationships within <italic>Polypodium<italic> sensu stricto. Analyses of sequence data from four plastid loci (<italic>atpA<italic>, <italic>rbcL<italic>, <italic>matK<italic>, and <italic>trnG-trnR<italic>) recovered a monophyletic <italic>P. vulgare<italic> complex comprising four well-supported clades. The <italic>P. vulgare<italic> complex is resolved as sister to the Neotropical <italic>P. plesiosorum<italic> group and these, in turn, are sister to the Asian endemic <italic>Pleurosoriopsis makinoi<italic>. Divergence time analyses incorporating previously derived age constraints and fossil data provide support for an early Miocene origin for the <italic>P. vulgare<italic> complex and a late Miocene-Pliocene origin for the four major diploid lineages of the complex, with the majority of extant diploid species diversifying from the late Miocene through the Pleistocene. Finally, node age estimates are used to reassess previous hypotheses, and to propose new hypotheses, about the historical events that shaped the diversity and current geographic distribution of the diploid species of the <italic>P. vulgare<italic> complex. </p><p>Chapter II addresses reported discrepancies regarding the occurrence of <italic>Polypodium calirhiza<italic> in Mexico. The original paper describing this taxon cited collections from Mexico, but the species was omitted from the recent <italic>Pteridophytes of Mexico<italic>. Originally treated as a tetraploid cytotype of <italic>P. californicum<italic>, <italic>P. calirhiza<italic> now is hypothesized to have arisen through hybridization between <italic>P. glycyrrhiza<italic> and <italic>P. californicum<italic>. The allotetraploid can be difficult to distinguish from either of its putative parents, but especially so from <italic>P. californicum<italic>. These analyses show that a combination of spore length and abaxial rachis scale morphology consistently distinguishes <italic>P. calirhiza<italic> from <italic>P. californicum<italic> and confirm that both species occur in Mexico. Although occasionally found growing together in the United States, the two species are strongly allopatric in Mexico, where <italic>P. californicum<italic> is restricted to coastal regions of the Baja California peninsula and neighboring Pacific islands and <italic>P. calirhiza<italic> grows at high elevations in central and southern Mexico. The occurrence of <italic>P. calirhiza<italic> in Oaxaca, Mexico, marks the southernmost extent of the P. vulgare complex in the Western Hemisphere.</p><p>Chapter III examines a case of reciprocal allopolyploid origins in the fern <italic>Polypodium hesperium<italic> and presents it as a natural model system for investigating the evolutionary potential of duplicated genomes. In allopolyploids, reciprocal crosses between the same progenitor species can yield lineages with different uniparentally inherited plastid genomes. While likely common, there are few well-documented examples of such reciprocal origins. Using a combination of uniparentally inherited plastid and biparentally inherited nuclear sequence data, we investigated the distributions and relative ages of reciprocally formed lineages in <italic>Polypodium hesperium<italic>, an allotetraploid fern that is broadly distributed in western North America. The reciprocally-derived plastid haplotypes of <italic>Polypodium hesperium<italic> are allopatric, with populations north and south of 42&#730; N latitude having different plastid genomes. Biogeographic information and previously estimated ages for the diversification of its diploid progenitors, lends support for middle to late Pleistocene origins of <italic>P. hesperium<italic>. Several features of <italic>Polypodium hesperium<italic> make it a particularly promising system for investigating the evolutionary consequences of allopolyploidy. These include reciprocally derived lineages with disjunct geographic distributions, recent time of origin, and extant diploid progenitor lineages. </p><p>This dissertation concludes by demonstrating the utility of the allotetraploid <italic>Polypodium hesperium<italic> for understanding how ferns utilize the genetic diversity imparted by allopolyploidy and recurrent origins. Chapter IV details the use of high-throughput sequencing technologies to generate a reference transcriptome for <italic>Polypodium<italic>, a genus without preexisting genomic resources, and compare patterns of total and homoeolog-specific gene expression in leaf tissue of reciprocally formed lineages of <italic>P. hesperium<italic>. Genome-wide expression patterns of total gene expression and homoeolog expression ratios are strikingly similar between the lineages--total gene expression levels mirror those of the diploid progenitor P. amorphum and homoeologs derived from <italic>P. amorphum<italic> are preferentially expressed. The unprecedented levels of unbalanced expression level dominance and unbalanced homoeolog expression bias found in <italic>P. hesperium<italic> supports the hypothesis that these phenomena are pervasive consequences of allopolyploidy in plants.</p> / Dissertation

Biology

Systematic biology

Plant biology

ferns

phylogenetics

polyploidy

reticulate evolution

transcriptomics

Fern species diversity in relation to spatial scale and structure

Richard, Monique, 1972-

January 1998

Species with different requirements can coexist if the environment varies in space; we therefore expect a positive relationship between species diversity and environmental heterogeneity. In this thesis I examine the influence of environmental structure on patterns of fern diversity in one hectare of old-growth forest and compare these patterns to other surveys covering a broad range of scales. The nineteen species recorded in the hectare had non-random spatial distributions and differed in their soil preferences. Diversity was positively related to soil moisture and negatively related to soil fertility, but there was no relationship with environmental variance. The counteracting influence of dispersal may predominate over selection processes at the hectare scale. Both species-area curves and the decreasing correlation of species composition with distance had very similar slopes over quadrat sizes ranging from 1 x 1 m to 50 x 50 km, suggesting that some diversity patterns may be independent of scale.

Systematics of Woodsia : Ferns, bioinformatics and more

Larsson, Anders

January 2014

Ferns are one of the three main clades of vascular plants. They have few easily studied morphological characters, reflected in a historically unstable classification. The fern genus Woodsia is known to have a complex evolutionary history including numerous polyploid taxa and hybrids. It is a cosmopolitan group of small rock loving ferns mainly found in montane areas. This thesis aims at analyzing the patterns of diploid and polyploid evolution in Woodsia and to resolve and classify the relationships of Woodsiaceae and the other families in the large fern clade Eupolypods II. The Eupolypods II family relationships were inferred with DNA sequences from 81 specimens representing all major lineages. This resulted in the first well supported phylogeny of this clade and revealed Woodsiaceae to be non-monophyletic. The genera previously placed in this family were reclassified into five new or resurrected families. Swedish fern genera that have changed family classification are Woodsia (hällebräknar), now in the monogeneric family Woodsiaceae, Athyrium (majbräknar), now  in Athyriaceeae and Cystopteris (stenbräknar) and Gymnocarpium (ekbräknar) now in Cystopteridaceae. To analyze the evolution of Woodsia, phylogenies were produced from five plastid and two nuclear regions sequenced from 188 specimens. The results show that most taxa in Woodsia are polyploid. Polyploidization is the most common mode of speciation in the genus with an estimated polyploid speciation rate of 54%. The polyploids are mostly young and many of the polyploid taxa seem to have formed multiple times. The results also address several taxonomic and biogeographic questions. In the process of the work we made methodological advancements and developed 20 new low copy nuclear marker regions as well as a software pipeline for finding primers in transcriptome datasets. The alignment editor software AliView was developed for handling the increasing size datasets in a user friendly way. In conclusion this thesis provides new insights into the complexities of the evolution of a fern genus in which much of the diversity is accommodated in young species formed through polyploidization. It provides a framework of phylogenetic relationships at different levels that both answers long standing questions and generates new ones.

ferns

Eupolypods II

Woodsia

phylogeny

biogeography

polyploidy

polyploid speciation

classification

alignment

Caracterização da atividade antinociceptiva do extrato metanólico de Adiantumlatifolium Lam. em modelos experimentais de dor inflamatória / Caracterização da atividade antinociceptiva do extrato metanólico de Adiantumlatifolium Lam. em modelos experimentais de dor inflamatória

Nogueira, Tâmara Magalhães Oliveira

January 2010

Submitted by Ana Maria Fiscina Sampaio (fiscina@bahia.fiocruz.br) on 2012-08-30T20:39:29Z No. of bitstreams: 1 Tâmara Nogueira Caracterização da atividade antinociceptiva do extrato metanólico de adiantum latifolium Lam. em modelos experimentais de dor.pdf: 916333 bytes, checksum: bd09f406974cde64dc9bb0917d1d11b6 (MD5) / Made available in DSpace on 2012-08-30T20:39:29Z (GMT). No. of bitstreams: 1 Tâmara Nogueira Caracterização da atividade antinociceptiva do extrato metanólico de adiantum latifolium Lam. em modelos experimentais de dor.pdf: 916333 bytes, checksum: bd09f406974cde64dc9bb0917d1d11b6 (MD5) Previous issue date: 2010 / Fundação Oswaldo Cruz. Centro de Pesquisas Gonçalo Moniz. Salvador, Bahia, Brasil / Adiantum, um dos gêneros mais amplamente distribuídos da família Pteridaceae é empregado na medicina popular mundialmente. Neste trabalho, nós investigamos as propriedades antinociceptivas do extrato metanólico de Adiantum latifolium (EMA) em modelos animais de dor inflamatória. As propriedades farmacológicas de EMA foram avaliadas nos testes de contorção, formalina, retirada de cauda e nos modelos de edema de pata induzido por carragenina e edema de orelha induzido pelo ácido aracdônico. A toxicidade aguda de EMA, assim como seu efeito sobre o desempenho motor dos camundongos no teste de rota rod, foram investigados. Além disso, o perfil químico de EMA foi avaliado por cromatografia. A administração oral (100-400 mg/Kg) ou intraperitoneal (1-100 mg/Kg) de EMA produziu uma inibição dose-dependente do número de contorções abdominais induzidas pelo ácido acético em camundongos. Do mesmo modo, o tratamento com EMA (100 mg/Kg/IP) inibiu a hipernocicepção induzida pela formalina tanto na fase inicial quanto na fase tardia. Em contraste, EMA não alterou o limiar de resposta a estímulo térmico no teste de retirada de cauda, indicando ausência de ação central. Confirmando sua atividade antiinflamatória, EMA (100 e 200 mg/Kg/IP) inibiu eventos importantes relacionados à resposta inflamatória induzida pela carragenina ou ácido aracdônico: edema local e aumento nos níveis de interleucina-1β tecidual. Camundongos tratados com EMA (200 mg/Kg) não mostraram alteração no desempenho motor no teste de rota rod, ou sinais de toxicidade (1000 mg/Kg) durante um período de 14 dias. A análise fitoquímica preliminar indicou a presença de terpenos, esteróides, flavonóides e ácidos fenólicos, os quais podem ser responsáveis pelos efeitos antinociceptivo e/ou antiinflamatório de EMA. Os extratos metanólicos de diferentes partes da planta apresentaram atividade antinociceptiva de igual magnitude, sugerindo que o princípio ativo de EMA se distribui por toda a planta. Quando as frações do extrato foram avaliadas, a butanólica e de acetato de etila apresentaram maior eficácia, sendo consideradas as frações mais ativas. Nossos resultados demonstram que Adiantum latifolium apresenta consistente atividade antinociceptiva e antiinflamatória em diferentes modelos experimentais, possivelmente pela inibição da produção e/ou liberação de IL-1β, constituindo bom candidato para o desenvolvimento farmacológico. Palavras- / Adiantum, one of the most widely distributed genera of the Pteridaceae family, is employed in folk medicine worldwide. In the present study, we investigated the antinociceptive effects of the methanolic extract of Adiantum latifolium (MEA) in animal models of inflammatory pain. The pharmacological properties of MEA were evaluated by using writhing, formalin and tail flick tests, carrageenan-induced paw oedema and arachidonic acid-induced ear oedema models. Mice motor performance was evaluated in the rota-rod test and the acute toxicity evaluated over 14 days. In the next experiments series, the active part of Adiantum latifolium, as well as the active fraction of MEA, was evaluated. A phytochemical screening for classes of constituents of MEA was carried out by thin layer chromatography (TLC). Oral (100-400 mg/kg) or intraperitoneal (1-100 mg/kg) administration of MEA produced a dose-related inhibition of acetic acid-induced writhing in mice. Furthermore, treatment with MEA (100 mg/kg/IP) inhibited both the early and late phases of formalin induced hypernociception. In contrast, MEA (100 mg/kg/IP) did not prevent the thermal nociception in the tail flick test. In addition, MEA (100 and 200 mg/kg/IP) inhibited important events related to the inflammatory response induced by carrageenan or arachidonic acid: namely local oedema and increase in tissue interleukin-1β levels. MEA (200 mg/kg/IP) treated mice did not show any motor performance alterations. Over the study duration of 14 days, there were no deaths or toxic signs recorded in the group of mice given 1000 mg/kg of MEA. Phytochemical analysis indicated the presence of terpenes, steroids, flavonoids and phenolic acids, which may be responsible for the MEA antinociceptive and/or antiinflammatory effects. Methanolic extracts from different parts of Adiantum latifolium showed equivalent antinociceptive activity, suggesting that the active principle of EMA is homogeny distributed through the plant. Buthanolic and ethyl acetate fractions were the more active fractions of MEA. Our results demonstrate that Adiantum latifolium presents significant antinociceptive and antiinflammatory activities in different experimental models, possibly through an inhibition of IL-1β production and constitute good candidate for pharmacologic development.

Adiantum

Samambaias

Antinocicepção

Dor inflamatória

Interleucina-1beta

Adiantum

Ferns

Antinociception

Inflammatory pain

Interleukin-1β

Desenvolvimento do aerênquima em raízes de Cebatopteris richardii brongn. (PTERIDACEAE) submetidas a estresse hídrico

Garcia, Juliana Bittencourt

January 2016

O aerênquima é um tecido vegetal com grandes lacunas de ar que podem ter função de circulação de gases e/ou sustentação de órgãos, estando presente nas raízes e órgãos aéreos de plantas aquáticas ou sob alagamento, podendo ainda ser formado em decorrência de algum estresse. Ceratopteris richardii é uma planta aquática, de hábito anfíbio que apresenta aerênquima em seus órgãos vegetativos. Dessa forma, esse trabalho buscou analisar a formação de aerênquima nas raízes e pecíolo desta espécie frente a uma situação de restrição hídrica e verificar sua plasticidade fenotípica. Vinte indivíduos de C. richardii foram cultivados e submetidos a um tratamento com diferentes concentrações de PEG 6000. Em todas as amostras analisadas, foi observada a formação de aerênquima. A análise qualitativa mostrou diferença entre os tratamentos, porém, a análise estatística revelou que as diferenças não são significativas para o número amostral empregado. Variações de crescimento do esporófito revelaram que a espécie de estudo modificou algumas características de desenvolvimento em resposta a restrição hídrica. Tais resultados revelam importantes características para esta espécie, que parece aclimatar-se a situação de estresse a qual foi submetida. Com base nisso, sugere-se ampliar estes estudos para elucidar questões relacionadas a formação de aerênquima e o ambiente, seja para esta espécie ou de outro grupo taxonômico. / Aerenchyma is a plant tissue with large air gaps that may have gas circulation function and / or sustain organs. This structure is present in roots and aerial organs of water plants and in plants under flooding it may also be formed during some stress. Ceratopteris richardii is an aquatic plant, with amphibious habit that has aerenchyma in their vegetative organs. Thus, the aim of this study is analyze the aerenchyma formation in roots and stem of this specie under water restriction situation and verify their phenotypic plasticity. Twenty specimen of C. richardii were cultured and subjected to treatment with different concentrations of PEG 6000. In all samples, were observed aerenchyma formation. Qualitative analysis showed differences among treatments, however, the statistical analysis revealed that the differences are not significant for the sample size. Sporophyte growth variations revealed that the specie of study modified some growth characteristics in response to water restriction. These results reveal important characteristics for C. richardii, which seems to acclimatize the stress situation which has submitted. On the base that, it is suggested further studies to become clearer the relation between aerenchyma formation and environment, even to either this species or another taxonomic group.

Aerênquima

Ceratopteris richardii

Plantas aquáticas

Samambaias

Aerenchyma

Aquatic plants

Ferns

Phenotypic plasticity

Water restriction