The growth response of Eucalyptus grandis x e. camaldulensis to salt stress, ectomycorrhizae and endomycorrhizae double colonisation

Hengari, Simeon Ngaitungue

03 1900

Thesis (MScFor (Forest and Wood Science))--University of Stellenbosch, 2007. / The study was undertaken to determine the potential physiological benefits to plants provided by the double colonisation of host plant roots by endomycorrhizal (AM) and ectomycorrhizal (ECM) fungi, when growing under normal and under salt stress conditions. Plants of the Eucalyptus grandis x E. camaldulensis clone were grown in a sterile soil with 0 and 75 mM NaCl and with or without infection with the fungi Glomus etunicatum (an AM fungus) and Pisolithus tinctorius (an ECM fungus). The Eucalyptus clone formed both ECM and AM in single and double inoculation. The mycorrhizal symbiosis did not provide any nutritional benefits to the hosts. The double colonisation had no effect on plant growth under normal growth conditions while single colonisations of AM and ECM reduced growth. Double colonisation reduced host plant specific leaf mass by 12% and increased total leaf area by 43% compared with the control under these growth conditions. This colonisation also reduced photosynthesis per leaf area by 29% compared with the control. The reduced photosynthesis of the double colonisation did not result in reduced plant growth because these plants may have had a high total plant photosynthesis because of their large total leaf area. The double symbiosis however did not reduce salt stress when host plants were exposed to 75 mM NaCl, while the AM fungus increased plant dry weight by 13% compared to the control. AM and ECM colonisation in the double colonised roots under salt stress was decreased by 18 and 43% compared to that in plants under normal growth. The reduced colonisation may have reduced the fungi’s abilities to be beneficial to the host plant. The double symbiosis is recommended based on the documented positive effects of this symbiosis to plant growth and the considered possible long-term benefits to host plants growing in saline soils.

Dissertations -- Forest and wood science

Theses -- Forest and wood science

Eucalyptus grandis -- Growth

Endomycorrhizas

Ectomycorrhizal fungi

Symbiosis

Mycorrhizas in agriculture

Eucalyptus grandis -- Effect of salt on

Soils, Salts in

Plant-fungus relationships

Analyse fonctionnelle d'effecteurs fongiques impliqués dans le développement de la symbiose ectomycorhizienne Laccaria bicolor-Populus trichocarpa / Identifying targets of fungal effectors in the ectomycorrhizal symbiosis Laccaria bicolor-Populus trichocarpa

Daguerre, Yohann

14 November 2013

Les racines de la plupart des arbres forment des symbioses ectomycorhiziennes avec les champignons mutualistes du sol. Le basidiomycète L. bicolor (Maire) P.D. Orton secrète de petites protéines effectrices (MiSSP) afin d'établir les structures symbiotiques. Toutefois, les protéines de l'hôte ciblées par les MiSSPs ne sont pas connues. Dans notre étude, nous démontrons, à l'aide du système double hybride chez la levure (Y2H), que la protéine MiSSP7 interagit avec les co-récepteurs de l'acide jasmonique (AJ) JAZ5 et JAZ6 de P. trichocarpa. Cette interaction entraine un blocage de la voie de signalisation de l'AJ et favorise le développement symbiotique. Des transformants de L. bicolor, dont l'expression de MiSSP7 est fortement réduite, ne sont plus capables de mycorhizer les racines du peuplier. Une variation transgénique de la transcription de PtJAZ6 ou l'inhibition de la voie de signalisation de l'AJ complémente ce phénotype. Nous avons également montré que la protéine PtJAZ6 interagit avec une protéine de type 14-3-3 et un facteur de transcription de type MYC, formant un complexe de régulation. Deux autres protéines effectrices, MiSSP8 et MiSSP17, sont sécrétées et essentielles au développement symbiotique. Les résultats des analyses Y2H suggèrent que MiSSP8 et MiSSP17 pourraient aider au contournement des réactions de défense de la plante-hôte. Au cours du développement symbiotique, le champignon est le siège d'une reprogrammation génétique importante. Les facteurs de transcription (TFs) sont les principaux acteurs de ces changements génétiques. Nous avons donc étudié les TFs de L. bicolor afin d'obtenir un inventaire complet des TFs régulés par la mycorhization / Roots of most trees form symbiosis with mutualistic soil-borne fungi. The ectomycorrhizal basidiomycete L. bicolor (Maire) P.D. Orton relies on mycorrhizal-induced small secreted proteins (MiSSP) to establish symbiotic tissues in the host-plant. The host proteins targeted by these fungal effectors are yet unknown. In the present study, we used the binary yeast two-hybrid (Y2H) system to determine direct interactions between MiSSP7 and the plant proteins in the L. bicolor-P. trichocarpa ectomycorrhizae. We showed that MiSSP7 interact with the jasmonic acid (JA) co-receptors JAZ5 and JAZ6 of P. trichocarpa, blocking JA signaling and promoting mutualism. L. bicolor transformants with severely reduced expression of MiSSP7 did not enter into symbiosis with poplar roots, a phenotype that could be complemented by transgenically varying the transcription of PtJAZ6 or through inhibiting JA signalling. Additional Y2H assays showed that PtJAZ6 protein form a regulatory complex involving 14-3-3 protein(s) and MYC transcriptional factors. Two others L. bicolor effector-like proteins, MiSSP8 and MiSSP17, are secreted and are essential for the symbiosis development. Y2H assays suggested that these MiSSPs interact with plant proteins involved in plant defence signalling pathways. During symbiosis development, L. bicolor experiences important genetic reprogramming required for root colonization. Transcription factors (TFs) are key players of these genetic changes. Here, we developed high throughput analysis of TFs in L. bicolor to obtain a comprehensive inventory of significantly regulated transcription factors in ECM

Effecteur MiSSP

Développement ectomycorhizien

Défenses de la plante

Échange mutualiste de nutriment

Facteur de transcription

Reprogrammation génétique

Effector MiSSP

Ectomycorrhizal development

Plant defence

Mutualistic nutrient exchange

Transcription factor

Genetic reprogramming

579.617 85

Relations trophiques dans la rhizosphère : effet des interactions entre champignon ectomycorhizien, bactéries et nématodes bactérivores sur le prélèvement minéral du Pin maritime (Pinus pinaster) / Trophic relationships in the rhizosphere : effect of fungal, bacterial and nematode interactions on mineral nutrition of Pinus pinaster seedlings

Irshad, Usman

06 December 2011

Les microorganismes agissent comme un puits et une source de N et Pdisponibles car ils sont responsables des cycles biogéochimiques de N et P. La bouclemicrobienne, basée sur la prédation des bactéries par les microprédateurs tels que lesnématodes bactérivores, est considérée comme un facteur majeur de la minéralisation de Net de P dans les écosystèmes terrestres. Cependant, peu de données sont disponibles surl'impact de la prédation par les nématodes sur la nutrition minérale des plantes ligneusesectomycorhizées. Différentes expérimentations ont été conduites pour quantifier le rôle dela prédation des bactéries par les nématodes sur l'architecture et la croissance racinaire, lanutrition minérale (N et P) d'une espèce ligneuse, Pinus pinaster, associée ou non avec lebasidiomycète ectomycorhizien Hebeloma cylindrosporum. Les plantes ont été cultivéesdans un système expérimental simplifié et stérile, et inoculées ou non avec Bacillus subtiliset des nématodes bactérivores (de la famille des Rhabditidae ou des Cephalobidae) isolés àpartir d'ectomycorhizes et de sol provenant d'une plantation de Pin maritime. L'effet de laprédation sur la croissance des plantes et le devenir du 15N bactérien vers les partiesaériennes dépend très fortement de la disponibilité en P du milieu. De plus, la prédationdes bactéries est indispensable pour permettre à la plante d'utiliser le P du phytate, unesource de P organique très peu disponible pour la plante mais très facilement utilisable parB. subtilis car cette bactérie est capable de libérer de la phytase dans le milieu. Cesrésultats ouvrent de nouvelles perspectives pour améliorer l'utilisation du phytate pour lanutrition phosphatée des plantes. / Soil microorganisms act as a sink and a source of available N and P bymediating key processes in the biogeochemical N and P cycling. The microbial loop, basedupon the grazing of bacteria by predators such as bacterial-feeding nematodes, is thoughtto play a major role in the mineralization of nutrients such as nitrogen (N) and phosphorus(P) in terrestrial ecosystems. However, little is known about the impact of grazing bynematodes on mineral nutrition of ectomycorrhizal woody plants. Different studies wereundertaken to quantify the role of nematode grazing on bacteria on the root growth andarchitecture, mineral nutrition (N and P) of a woody species, Pinus pinaster, whether ornot associated with the ectomycorrhizal basidiomycete Hebeloma cylindrosporum. Plantswere grown in a sterile simplified experimental system, whether inoculated or not withBacillus subtilis and bacterial-feeding nematodes (belonging to Rhabditidae orCephalobidae families) that were isolated from ectomycorrhizae and from soil of a P.pinaster plantation. The effect of nematode grazing on plant growth and the fate ofbacterial 15N towards plant shoots was strongly dependent upon medium P availability. Inaddition, nematode grazing was required to enable the plant to access P from phytate, awell-known poorly available P source to plants but that was used by bacterial populationsof B. subtilis due to its ability to release phytase in the medium. These results open analternative route to increase the use of phytate for plant P nutrition.

Nématodes bactérivores

Relations trophiques

Nutrition minérale

15N bactérien

P organique

Symbiose ectomycorhizienne

Bacterial-grazers nematodes

Trophic relationships

Mineral nutrition

Bacterial 15N

Organic P

Ectomycorrhizal symbiosis

Fonctionnement des phosphatases dans les sols tropicaux : influence de la composition organo-minérale sur l'expression de l'activité enzymatique / Operation of phosphatases in tropical soils : influence of organo-mineral composition on enzymatic activity

Kedi, Atolé Brice

20 December 2011

La prédiction de l'activité des phosphatases fongiques dans l'amélioration de la nutrition phosphatée doit prendre en compte les facteurs qui influencent leur fonctionnement dans les sols. L'objectif de cette thèse a été d'étudier divers facteurs qui pouvaient influencer l'efficacité des phosphatases de champignons ectomycorhiziens dans les sols. L'adsorption et l'activité à l'état adsorbé des phosphatases de Suillus collinitus et de Hebeloma cylindrosporum ont été étudiées avec plusieurs fractions de différents sols tropicaux. La persistance de l'activité de ces enzymes immobilisées sur les sols a également été étudiée. Ces phosphatases ont montré une diversité d'affinité avec les colloïdes des sols, liée surtout à leur origine et leurs caractéristiques. En outre, aucune relation n'a été établie entre l'adsorption et l'activité catalytique résultante, car il n'y avait généralement pas de perte d'activité à l'état adsorbé. L'une des enzymes qui à montré une dégradation rapide en solution suivant le temps d'incubation, a été protégée par les sols ferrallitiques mais pas par les vertisols. Des essais de purification et de caractérisation ont été faits sur ces échantillons de phosphatases fongiques. Les fractions de phosphatases de S. collinitus purifiées et retenues sur une colonne hydrophobe de chromatographie ont montré une activité en contact avec des argiles fortement supérieure à celle en solution. L'hypothèse d'une dimérisation produite à la surface des argiles a été avancée pour expliquer l'amplification inattendue d'activité catalytique à l'état adsorbé des fractions purifiées / The role of catalytic activity of fungal phosphatases in the improvement of the phosphorus nutrition cannot be reliably predicted without taking into account the factors which influence their behaviour in the soil. The objective of this thesis was to study various factors which could influence the effectiveness of ectomycorrhizal fungal phosphatases in soils. Adsorption and the activity in the adsorbed state of phosphatases produced by Suillus collinitus and Hebeloma cylindrosporum were studied in contact with several fractions of various tropical soils. The persistence of the activity of these enzymes immobilized on the soils was also studied. These phosphatases showed a diversity of affinity for soil colloids, due to their origin and their characteristics. Moreover, no relation was found between adsorption and the resulting catalytic activity; there was generally no loss of activity in an adsorbed state. One of the enzymes which underwent rapid degradation in solution was protected by the presence of ferrallitic soils but not by the vertisols. These fungic phosphatase samples were purified and partially characterized. The fractions of S. collinitus phosphatases retained on hydrophobic chromatography column showed enhanced activity in contact with mineral clays with respect to solution. The hypothesis of dimeerisation on the clay surfaces was advanced to explain the unexpected enhancement of catalytic activity in an adsorbed state of the purified fractions.

Phosphatases ectomycorhiziens

Sols tropicaux

Activité enzymatique

Adsorption

Suillus collinitus

Hebeloma cylindrosporum

Ectomycorrhizal phosphatases

Tropical soils

Enzymatic activity

Adsorption

Suillus collinitus

Hebeloma cylindrosporum

Impacts of ponderosa pine forest restoration treatments on the ectomycorrhizal fungal community and fine root biomass in the Blue Mountains of Oregon

Smith, Jane E. (Jane Elizabeth)

07 May 2004

Before the arrival of Euro-Americans, the inland Pacific Northwest was settled by native people whose frequent intentional burning of the landscape promoted open stands dominated by large fire-resistant ponderosa pine. Fire suppression for nearly a century, livestock grazing, and logging of the largest trees has resulted in forests characterized by increased densities of small trees with closed canopies and unusually high fuel loads. Such structural changes to the forest ecosystem are particularly evident in the Blue Mountains of Oregon and Washington where forest managers are applying prescribed fire and thinning to reduce the risk of stand-replacing wildfire and reestablish stand structure characteristics seen prior to Euro-American settlement. Aboveground ecosystem recovery after disturbance is directly linked to the survival of ectomycorrhizal fungi (EMF) that form an obligate symbiosis with roots of tree species in the Pinaceae. EMF are critical for the uptake of nutrients by the tree host. The research comprising this dissertation explores the response of the EMF community structure and composition, live fine root biomass, and duff (decaying material) levels to (i) seasonal burning (fall vs. spring) and (ii) alternative fuel reducing restoration treatments (thinned only, prescribed burned only, thinned and prescribed burned). In both studies, treatments significantly reducing duff depth (e.g. fall burning and both restoration burning treatments) negatively impacted EMF species richness and live fine root biomass. The EMF community is characterized by a large number of species scattered at low frequencies across the sites. The frequent occurrence of a few species (e.g. Rhizopogon salebrosus and Wilcoxina rehmii), in both studies before and after treatment applications, demonstrates that some EMF species survive or rapidly reestablish after disturbance. The initial reduction of EMF species richness, fine root biomass, and duff levels after prescribed fire has important implications for whether managers can achieve the desired future condition of stands with large-tree retention and low fuel loads. The impacts of prescribed fire on the soil microbial community, along with the recovery potential of a site and the impending risk of stand-replacing wildfire in stands differing in structure from historic conditions, bear consideration when developing restoration prescriptions. / Graduation date: 2005

Characterization of fungal and bacterial communities associated with mat-forming ectomycorrhizal fungi from old-growth stands in the H.J. Andrews Experimental Forest

Hesse, Cedar N.

17 May 2012

Mat-forming ectomycorrhizal (EcM) fungi represent a prevalent constituent of many temperate forest ecosystems and create dramatic changes in soil structure and chemistry. EcM mat soil have been shown to have increased microbial respiration rates and have been hypothesized to harbor unique assemblages of fungi and bacteria. The objectives of this dissertation were to characterize and examine the fungal and bacterial communities associated with EcM mats in old-growth forests of the H.J. Andrews Experimental Forest located in the Oregon Cascades. Additionally, this work assessed the application of traditional, emerging, and novel molecular sampling techniques for determining microbial communities of environmental samples. This research investigated the microbial communities associated with two common EcM mat genera found in old-growth Douglas fir stands in the Pacific Northwest; Piloderma (Atheliales, Basidiomycota) and Ramaria (Gomphales, Basidiomycota). Soil samples were collected from Piloderma and Ramaria mats and surrounding non- mat soil for molecular analysis of nucleic acids. First, a comparative study was conducted to determine the most appropriate rDNA molecular sampling technique for microbial community characterization. Two next-generation sequencing methods, Roche 454 pyrosequencing and Illumina-based environmental sequencing, the latter developed by the author, were compared to a more traditional sequencing approach, i.e., Sanger sequencing of clone libraries. These findings informed the subsequent sampling of the fungal ITS and bacterial 16S rDNA fragment with 454 pyrosequencing to determine the microbial communities within mat and non-mat soils. Second, this work utilized a pyrosequencing approach to explore fungal community structure in EcM mat and non-mat soils. This work concluded that differences in microbial communities do exist between Piloderma mat, Ramaria mat, and non-mat soils, but the differences are largely quantitative with relatively few distinct taxonomic shifts in microbial constituents. Piloderma, Ramaria and Russula, in addition to being the dominant taxa found on mycorrhizal root tips, were found to be the most abundant taxa in bulk soils within their respective mat types or non-mat sample. The background fungal communities within the EcM mats in this study exhibited considerable taxonomic overlap with the exception of Piloderma vs. non-mat comparisons; Russula species dominated nonmat soils but tended to be excluded or significantly underrepresented in Piloderma mats. Lastly, this study explored the bacterial communities associated with Piloderma and Ramaria mats using lower- coverage 454-Jr pyrosequencing. Bacterial communities exhibited significant structure as a function of mat-type, soil horizon and pH, but this finding should be interpreted with respect to the nonrandom distribution of Piloderma-mats in the O- horizon and the Ramaria-mats in the A-horizon, and the tendancy for EcM mats to be more acidic than surrounding soils. Nonetheless, the total microbial (bacterial and fungal) community was typically dominated by the mat-forming taxa, or Russula, in the case of non-mat soils. While the presence of Piloderma mats did enrich or restrict some bacterial groups, soil pH was also found to be a significant driver of bacterial richness and taxonomic diversity. Fungal and bacterial richness were also found to be positively related to one another, regardless of soil horizon or EcM mat type. This work, taken together, contributes to the understanding of hyperdiversity and heterogeneity of microbial communities of temperate forest soils and highlights the potential for fungal and bacterial communities to be influenced by the presence of EcM mats. / Graduation date: 2012

Ectomycorrhizal Mat

Microbial Ecology

Piloderma

Ramaria

Soil fungi

Impact de la nature du couvert végétal sur la diversité taxonomique et fonctionnelle des champignons symbiotiques et des microorganismes eucaryotes associés / Impact of tree species on taxonomic and functional diversity of ectomycorrhizal fungi and associated eukaryotic microorganisms

Damon, Coralie

11 May 2010

Au sein des sols forestiers, la richesse taxonomique et le rôle des microorganismes eucaryotes (en grande partie des champignons) restent encore largement méconnus. L’espèce d’arbre est un des facteurs qui structurent les communautés de ces microorganismes. Nous avons étudié l’impact de l’essence forestière (hêtre et épicéa) sur la diversité taxonomique et fonctionnelle de ces communautés par une approche métatranscriptomique et une approche biochimique (focalisée sur les champignons ectomycorhiziens). Nous avons montré un effet de la séquence étudiée (ADNr 18S, ADNc) sur la distribution taxonomique des communautés et développé un nouveau marqueur moléculaire mitochondrial pour l’étude des communautés de champignons métaboliquement actifs. L’identification de gènes d’intérêt écologique et industriel par séquençage systématique des banques métatranscriptomiques ainsi que l’identification fonctionnelle d’une nouvelle famille de transporteursmembranaires montrent l’intérêt de l’approche métatranscriptomique. L’approche biochimique a consisté en un dosage à haut débit, sur des extrémités racinaires ectomycorhizés, d’activités enzymatiques liées à la dégradation de la matière organique et à la mobilisation de l’azote et du phosphore du sol. L’ensemble de ces approches a permis de montrer un impact de l’essence forestière sur la nature des espèces présentes plutôt que sur la richesse taxonomique et une préférence d’hôte de certains groupes fongiques ectomycorhiziens. L’approche biochimique a montré une redondance fonctionnelle importante pour certaines activités enzymatiques tandis qu’une autre activité enzymatique était spécifique d’un groupe taxonomique fongique. / In forest soils, taxonomic richness and functional diversity of eukaryotic microorganisms (mainly Fungi) remain largely unknowned. Tree species is one of the main factors that structure eukaryotic microbial communities. We have studied the impact of tree species (beech and spruce) on taxonomic and functional diversity of these communities by using a metatranscriptomic approach and a biochemical one focusing on ectomycorrhizal fungi. We showed an effet of different sequences (18S rDNA, cDNA) on taxonomic composition of eukaryotic microbial communities and we developped anew mitochondrial molecular marker for the study of metabolically active fungal communities. Identification of ecologically and industrially important genes by the shotgun sequencing of metatranscriptomic libraries and also identification of a new family of transmembrane transporter demonstrate the great potential of the metatranscriptomic approach. The biochemical approachconsisted in a multiple enzymatic test carried out on ectomycorrhizal roots, of enzyme activities linked to organic matter degradation and phosphorus and nitrogen mobilization. All these approaches revealed an impact of tree species on the microbial species composition but not on taxonomic richness and also host preference for some ectomycorrhizal taxonomic groups. The biochemical approach showed a high functional redundancy for some enzyme activities while one activity was very specific of an ectomycorrhizal taxonomic group.

Espèce d’arbre

Diversité taxonomique

Diversité fonctionnelle

Microorganismes eucaryotes

Métatranscriptomique

Champignons ectomycorhiziens

Activité enzymatique

Matière organique du sol

Tree species

Taxonomic diversity

Functional diversity

Eukaryotic microorganisms

Metatranscriptomic

Ectomycorrhizal fungi

Enzyme activities

Soil organic matter

571.629

Impact of the ectomycorrhizal symbiosis for plant adaptation to nutritional and salt stress : characterization and role of potassium channels in the model fungus Hebeloma cylindrosporum / Impact de la symbiose ectomycorhizienne dans l'adaptation des plantes aux stress nutritif et salin : caractérisation et rôle de canaux potassiques chez le champignon modèle Hebeloma cylindrosporum

Guerrero Galan, Maria del Carmen

24 November 2017

La symbiose ectomycorhizienne, répandue dans les forêts tempérées et boréales, se base sur des échanges nutritionnels entre la plante hôte et des champignons du sol. Ce mutualisme améliore la nutrition minérale et en eau de plantes ligneuses à travers des mécanismes encore méconnus. Ce manuscrit de thèse présente l’ensemble des systèmes de transport membranaire du champignon ectomycorhizien Hebeloma cylindrosporum identifié à partir du génome séquencé, avec un accent sur les gènes dont l’expression est induite en symbiose avec son hôte naturel, le pin maritime (Pinus pinaster). Ces données aideront à focaliser les futures recherches sur les gènes qui sont induits par la symbiose. Le champignon H. cylindrosporum améliore la nutrition potassique de son hôte en situation de carence. Cette étude est axée sur trois canaux ioniques qui peuvent être impliqués dans le transfert de K+ vers la plante. Ces canaux appartiennent à la famille TOK (Tandem-pore Outward-rectifying K+), spécifique de champignons et ont été caractérisés par plusieurs approches expérimentales. Des analyses in silico ont déterminé que ces trois canaux appartiennent à deux sous-familles et ont été nommés HcTOK1, HcTOK2.1 et HcTOK2.2. Leurs propriétés fonctionnelles ont été caractérisées par expression hétérologue pour une analyse en voltage-clamp à deux électrodes et complémentation de levures. La localisation a été étudiée par hybridation in situ en mycorhizes et par fusions gène-eGFP exprimés chez la levure et chez H. cylindrosporum. Le rôle physiologique des canaux HcTOK a été testé en culture pure et en symbiose avec P. pinaster grâces à des lignées transgéniques surexprimant ces gènes. En plus, les effets de la mycorhization par H. cylindrosporum et la nutrition potassique ont été testés chez P. pinaster cultivé en conditions de stress salin. Dans un premier temps, la tolérance du champignon au stress salin a été vérifiée en culture pure, ainsi que l’élément toxique de ce stress. Ensuite, le champignon a été cultivé en deux conditions de nutrition potassique et quatre de salinité pour connaître son homéostasie du K+ et analyser l’expression de ses systèmes de transport. Finalement, des plantules de P. pinaster ont été cultivées inoculées ou non en deux conditions de K+ et quatre de stress salin. En résumé, l’analyse de trois canaux HcTOK ont permis de démontrer les spécificités pour les sous-familles TOK1 et TOK2 et ont suggéré que HcTOK2.2 est probablement un élément clé pour le transfert du K+ via la plante en mycorhize. H. cylindrosporum semble jouer un rôle dans la tolérance à la salinité du pin maritime en diminuant le transfert du Na+ vers la plante et améliorant la nutrition potassique. / The ectomycorrhizal symbiosis, widespread in temperate and boreal ecosystems, is based in nutritional exchanges between the host plant and soil-borne fungi. This mutualism improves plant mineral and water nutrition of woody plants through mechanisms that are still largely unknown. This manuscript presents the whole set of membrane transport systems of the ectomycorrhizal fungus Hebeloma cylindrosporum identified from the sequenced genome, with an emphasis on the genes that are up-regulated in symbiosis with its natural host, the maritime pine (Pinus pinaster). These data will help to focalize future research on symbiosis-induced genes. The fungus H. cylindrosporum enhances the potassium (K+) nutrition of P. pinaster under starvation. This study has focused on three ion channels that could transfer the K+ to the plant. These channels belong to the fungal-specific TOK (Tandem-pore Outward-rectifying K+) family and have been characterized using several approaches. In silico analyses have positioned them in two subfamilies, giving them the names HcTOK1, HcTOK2.1 and HcTOK2.2. Their functional activity has been characterized by heterologous expression for two-electrode voltage-clamp measurements and yeast complementation. Localization has been studied by in situ hybridization in mycorrhiza and by expression of gene-eGFP constructs in yeast and H. cylindrosporum. The physiological role of these channels has been tested in pure culture and symbiosis with transgenic fungal lines overexpressing the HcTOK channels. Furthermore, the effects of H. cylindrosporum and K+ nutrition have been tested in P. pinaster seedlings subjected to salt stress. First, the tolerance to salinity of the fungus was analysed in pure culture with different compounds to identify the most toxic component. Second, the fungus was cultured in different NaCl and K+ conditions to know whether it kept the homeostasis and to check the expression of K+ transport systems. Finally, P. pinaster seedlings were cultured inoculated or not in two different K+ nutrition and four salinity conditions. Altogether, analysis of the three HcTOK channels revealed specificities of the TOK1- and TOK2-type and suggested that HcTOK2.2 might be a main player for the K+ transfer from the fungus towards the plant. H. cylindrosporum seems to play a role in the tolerance to salt stress of the maritime pine by reducing the Na+ transfer to the plant and improving K+ nutrition.

Symbiose ectomycorhizienne

Transport membranaire

Hebeloma cylindrosporum

Stress salin

Carence minérale

Ectomycorrhizal symbiosis

Membrane transport

Hebeloma cylindrosporum

Salt stress

Mineral shortage

Endogenous haemoglobins and heterologous <em>Vitreoscilla</em> haemoglobin in hybrid aspen

Jokipii-Lukkari, S. (Soile)

19 April 2011

Abstract In plants, there are at least three types of haemoglobins (Hbs): symbiotic, non-symbiotic and truncated. Symbiotic Hbs are known to participate in nitrogen fixation, but the roles of the latter two groups are more obscure. Previous reports have connected both plant non-symbiotic and truncated Hbs to the scavenging of an important signal molecule, nitric oxide (NO). The aim of the present thesis was to study the effects of a bacterial Hb of Vitreoscilla sp. (VHb) on a woody model organism, hybrid aspen (Populus tremula x tremuloides), and the role of endogenous hybrid aspen Hbs. To store the produced hybrid aspen lines, the suitability of different cryopreservation methods was also tested. VHb-expressing hybrid aspens were generated by Agrobacterium-mediated gene transfer. The effects of VHb expression were examined in standard greenhouse conditions, under elevated UV-B light as well as during culture with ectomycorrhizal fungi. Both slow cooling and vitrification methods were applied in cryostoring samples of the different genetic backgrounds. Hybrid aspen non-symbiotic and truncated Hb genes PttHb1 and PttTrHb, respectively, were also isolated. The function of the genes and corresponding proteins PttHb1 and PttTrHb were studied using non-transgenic and VHb hybrid aspen lines as well as a mutant yeast (Saccharomyces cerevisiae) defective in NO resistance. VHb expression did not improve the general growth of hybrid aspen but resulted in enhanced starch accumulation in chloroplasts, pointing to changes in energy metabolism. Of the studied cryopreservation protocols, the slow cooling of dormant in vivo buds proved to be the most feasible way of cryostoring hybrid aspen lines. The culture with the ectomycorrhizal fungus was shown to increase the expression of both PttHb1 and PttTrHb in the roots of non-transgenic lines. However, the fungi did not up-regulate the hybrid aspen Hb genes in the VHb lines. Therefore, it is hypothesized that endogenous Hbs may contribute to the growth of roots and that VHb may compensate this function. When expressed alone in the mutant yeast, the recombinant PttHb1 and PttTrHb did not protect cells against the toxicity of NO. Subsequently, a novel mRNA transcript of the heterotrophic ferredoxin NADP+ oxidoreductase gene PtthFNR was found. The absence of a plastid presequence in the transcript suggests targeting of the encoded protein into cytosol. The coexpression of PttHb1 and cytosolic PtthFNR partially rescued the mutant yeast during NO treatment, demonstrating for the first time that plant Hb1 with an applicable reductase scavenges NO in vivo at a physiologically relevant rate. This thesis extends current knowledge about plant Hbs and the effects of VHb on a phenotype of a tree. It also provides new information about plant ferredoxin reductase genes. / Tiivistelmä Kasvihemoglobiinit jaetaan symbioottisiin, ei-symbioottisiin sekä ns. katkaistuihin eli truncated-hemoglobiineihin. Symbioottisten hemoglobiinien tiedetään osallistuvan typen sitomiseen, kun taas kahden muun ryhmän toiminta tunnetaan heikosti. Aiemmissa tutkimuksissa ei-symbioottiset ja truncated-hemoglobiinit on yhdistetty tärkeän signaalimolekyylin, typpimonoksidin (NO), haitallisuuden vähentämiseen. Tämän työn tarkoituksena oli tutkia Vitreoscilla sp. -bakteerin VHb-hemoglobiinin vaikutuksia puuvartiseen mallikasviin, hybridihaapaan (Populus tremula x tremuloides), sekä hybridihaavan omien hemoglobiinien merkitystä. Lisäksi työssä kokeiltiin eri nestetyppisäilytysmenetelmiä hybridihaapalinjojen varastoimiseksi. VHb:tä ilmentävät hybridihaavat tuotettiin Agrobacterium-välitteisellä geeninsiirrolla. VHb:n vaikutuksia tutkittiin kasvihuoneolosuhteissa, kohotetussa UV-B-säteilyssä sekä sienijuurikasvatuksen aikana. Eri linjojen nestetyppisäilytykseen sovellettiin sekä hidasta että nopeaa jäähdytystä. Tutkimuksissa myös eristettiin hybridihaavan PttHb1- ja PttTrHb-hemoglobiinigeenit. Näiden geenien sekä niiden koodaamien PttHb1- ja PttTrHb-proteiinien toimintaa tutkittiin siirtogeenittömien ja VHb-hybridihaapalinjojen sekä NO-herkän hiivamutantin (Saccharomyces cerevisiae) avulla. VHb-ilmennys ei parantanut hybridihaavan kasvua, mutta lisäsi tärkkelyksen kertymistä viherhiukkasiin, mikä viittaa muutoksiin energia-aineenvaihdunnassa. Tutkituista menetelmistä parhaiten hybridihaapalinjojen nestetyppisäilytykseen soveltui lepovaiheessa olevien in vivo -silmujen hidas jäähdytys. Toisin kuin VHb-kasveissa, sienijuurikasvatus voimisti sekä PttHb1:n että PttTrHb:n ilmenemistä siirtogeenittömien hybridihaapojen juurissa. Tästä johtuen esitettiin, että hybridihaavan hemoglobiinit voivat vaikuttaa juurien kasvuun ja VHb pystyy korvaamaan tämän toiminnon. Kun PttHb1 ja PttTrHb ilmennettiin yksin mutanttihiivassa, proteiinit eivät suojanneet soluja NO:n myrkyllisyydeltä. Tämän jälkeen työssä kuvattiin heterotrofisen ferredoksiini-NADP+-oksidoreduktaasi-geenin PtthFNR:n uusi mRNA-muoto. Plastidiin ohjaavan sekvenssin puuttuminen geenituotteesta viittaa siihen, että mRNA:n koodaama proteiini sijoittuu solulimaan. PttHb1:n ja PtthFNR:n yhtäaikainen ilmentäminen mutanttihiivassa paransi solujen elossa säilymistä NO-käsittelyn aikana, mikä osoittaa ensimmäistä kertaa, että kasvin Hb1 pystyy sopivan reduktaasin kanssa vähentämään NO-pitoisuutta elävässä eliössä. Tämä työ laajentaa tietämystä kasvihemoglobiineista sekä VHb:n vaikutuksesta puiden ilmiasuun. Työ myös lisää tietoa kasvien ferredoksiinireduktaasi-geeneistä.

Vitreoscilla haemoglobin VHb

cryopreservation

ectomycorrhizal fungi

heterologous expression

hybrid aspen

non-symbiotic haemoglobin

truncated haemoglobin

Vitreoscilla-hemoglobiini VHb

ei-symbioottinen hemoglobiini

heterologinen ilmentäminen

hybridihaapa

katkaistu hemoglobiini

nestetyppisäilytys

sienijuuri

Populus tremula x tremuloides

Associação de fungos ectomicorrízicos com espécies florestais nativas do estado do Rio Grande do Sul / Association of ectomycorrhizal fungi with native forestry species of state of Rio Grande do Sul

Andreazza, Robson

24 February 2006

Conselho Nacional de Desenvolvimento Científico e Tecnológico / The work was development in Forestry Fepagro, Santa Maria, RS and in Laboratory of Biology and Microbiology of Soil and Environment Prof. Marcos Rubens Fries, from Department of Soil of Federal University of Santa Maria. First, the objective was to identify mycorrhizal associations in six native forestry species of Rio Grande do Sul State. This research was conducted in tree seasons of the year, in six native forestry species of State of Rio Grande do Sul. The roots were processed and analyzed according to mycorrhizal colonization type. The sporocarps found of native ectomycorrhizal fungi were identified, isolated and multiplied. The studies species were Araucaria angustifolia (Bertol.) Kuntze), Enterolobium contortisiliquum (Vell.) Morong.), Peltophorum dubium (Spreng) Taub.), Tabebuia chrysotricha (Mart. ex DC.) Standl.), Tabebuia impetiginosa (Mart.) Standl.), Apuleia leiocarpa (Vogel) J.F. Macbride). The forestry species didn t show ectomycorrhizal colonization in native conditions, although, it was found in some sporocarps near to some plants. It was observed the presence of associations with endomycorrhizal fungi in all species. The following study had the objective to test the possibility to form associations with ectomycorrhizal fungi and Apuleia leiocarpa and, in the fungi isolated UFSM RA 2.8 and UFSM RA 3.6 from Fepagro Forestry, respectively. These fungi were classified as Suillus sp. and Scleroderma sp. respectively. The fungi UFSC Pt 116 (Pisolithus microcarpus) and UFSC Pt 24 (Pisolithus sp.), were from of Federal University of Florianópolis, including the treatment without fungi. In Apuleia leiocarpa the fungi UFSM RA 3.6 was substituted by UFSC Sc 124 (Scleroderma sp.) fungi. It was analyzed seedling length, brash mass of aerial part and root, dry mass of part aerial, length and root and mycorrhizal colonization. It was observed the formation of ectomycorrhizal association in little plants of Apuleia leiocarpa and in Peltophorum dubium when inoculated with the ectomycorrhizal fungi Suillus sp.(UFSM RA 2.8). Furthermore, the results showed the best development in Apuleia leiocarpa in high plants, brash mass of aerial part and root, dry mass of part aerial. The Apuleia leiocarpa showed ectomycorrhizal association with isolated UFSM RA 2.8, in vitro . The Peltophorum dubium showed evidence that is possible have ectomycorrhizal associations with the isolate UFSM 2.8 in laboratory conditions. / O trabalho foi desenvolvido na Fepagro Florestas, Santa Maria RS e no Laboratório de Microbiologia e Biologia do Solo e do Ambiente Prof. Marcos Rubens Fries, do Departamento de Solos da Universidade Federal de Santa Maria. Primeiramente, o objetivo foi realizar um levantamento da ocorrência bem como a identificação das associações micorrízicas em seis espécies florestais nativas presentes no Estado do Rio Grande do Sul. O estudo foi conduzido em 3 épocas do ano com a coleta de amostras de solo, raízes e esporocarpos dos fungos. As raízes foram processadas e analisadas quanto ao tipo de colonização micorrízica. Os esporocarpos fungos ectomicorrízicos nativos encontrados foram identificados, isolados e multiplicados. As espécies estudadas foram o pinheiro-do-paraná (Araucaria angustifolia (Bertol.) Kuntze), timbaúva (Enterolobium contortisiliquum (Vell.) Morong.), canafístula (Peltophorum dubium (Spreng.) Taub.), ipê-amarelo (Tabebuia chrysotricha (Mart. ex DC.) Standl.), ipê-roxo (Tabebuia impetiginosa (Mart.) Standl.), grápia (Apuleia leiocarpa (Vogel) J.F. Macbride). As espécies florestais estudadas não apresentaram colonização ectomicorrízica a campo, entretanto, foram encontrados esporocarpos próximos de algumas plantas. Observou-se a presença de associações com fungos endomicorrízicos em todas as espécies. Posteriormente, estudou-se a possibilidade de formar associações com fungos ectomicorrízicos, grápia e canafístula. Foram utilizados os seguintes isolados: na grápia os fungos utilizados foram os isolados UFSM RA 2.8 e UFSM RA 3.6 oriundos da Fepagro Florestas, Santa Maria-RS, classificados como Suillus sp. e Scleroderma sp., respectivamente e os isolados UFSC Pt 116 (Pisolithus microcarpus) e UFSC Pt 24 (Pisolithus sp.), oriundos da Universidade Federal de Florianópolis, mais a testemunha sem fungo. Na canafístula o fungo UFSM RA 3.6 foi substituído pelo fungo UFSC Sc 124 (Scleroderma sp.). As avaliações foram: altura de planta, massa verde da parte aérea, massa verde radicular, massa seca da parte aérea e colonização micorrízica. Ocorreu a formação de associação ectomicorrízica nas plântulas de grápia e indícios desta formação com a canafístula quando inoculadas com o fungo ectomicorrízico Suillus sp. UFSM RA 2.8. Além disso, os resultados mostram que ocorreu melhor desenvolvimento nas plântulas de grápia quanto a altura de plantas, massa verde radicular e da parte aérea, e massa seca da parte aérea. A grápia apresentou associações ectomicorrízicas com o isolado UFSM RA 2.8, in vitro . A canafístula apresentou características morfológicas evidenciando uma possível associação ectomicorrízicas com o inóculo UFSM RA 2.8 em condições de laboratório.

Micorrizas

Fungos ectomicorrízicos

Araucaria angustifolia

Enterolobium contortisiliquum

Peltophorum dubium

Tabebuia chrysotricha

Tabebuia impetiginosa

Apuleia leiocarpa.

Mycorrhizal

Ectomycorrhizal fungi

Araucaria angustifolia

Enterolobium contortisiliquum

Peltophorum dubium

Tabebuia chrysotricha

Tabebuia impetiginosa

Apuleia leiocarpa.

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA