Ecology and diversity of freshwater picocyanobacteria in Japanese lakes / 日本湖沼に生息する淡水性ピコシアノバクテリアの生態と多様性

Cai, Ji

23 March 2021

京都大学 / 新制・課程博士 / 博士(理学) / 甲第23041号 / 理博第4718号 / 新制||理||1676(附属図書館) / 京都大学大学院理学研究科生物科学専攻 / (主査)教授 中野 伸一, 教授 曽田 貞滋, 教授 木庭 啓介 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Picocyanobacteria

Lake Biwa

16S rRNA

Microdiversity

Phylogeography

400

Diversity within the genus Thermoanaerobacter and its potential implications in lignocellulosic biofuel production through consolidated bioprocessing

Verbeke, Tobin James

18 December 2012

A major obstacle to achieving commercially viable lignocellulosic biofuels through consolidated bioprocessing (CBP) is the lack of “industry-ready” microorganisms. Ideally, a CBP-relevant organism would achieve efficient and complete hydrolysis of lignocellulose, simultaneous utilization of the diverse hydrolysis products and high yields of the desired biofuel. To date, no single microbe has been identified that can perform all of these processes at industrially significant levels. As such, thermophilic decaying woodchip compost was investigated as a source of novel lignocellulolytic, biofuel producing bacteria. From a single sample, a collection of physiologically diverse strains were isolated, which displayed differences in substrate utilization and biofuel production capabilities. Molecular characterization of these isolates, and development of a genome relatedness prediction model based on the chaperonin-60 universal target sequence, identified these isolates as strains of Thermoanaerobacter thermohydrosulfuricus. Application of this model to other Thermoanaerobacter spp. further identified that these isolates belong to a divergent and lesser characterized lineage within the genus. Based on this, the CBP-potential of a single isolate, T. thermohydrosulfuricus WC1, was selected for further investigation through metabolic, genomic and proteomic analyses. Its ability to grow on polymeric xylan, potentially catalyzed by an endoxylanase found in only a few Thermoanaerobacter strains, distinguishes T. thermohydrosulfuricus WC1 from many other strains within the genus. The simultaneous consumption of two important lignocellulose constituent saccharides, cellobiose and xylose was also observed and represents a desirable phenotype in CBP-relevant organisms. However, at elevated sugar concentrations, T. thermohydrosulfuricus WC1 produces principally lactate, rather than the desired biofuel ethanol, as the major end-product. Proteomic analysis identified that all likely end-product forming proteins were expressed at high levels suggesting that the end-product distribution patterns in T. thermohydrosulfuricus WC1 are likely controlled via metabolite-based regulation or are constrained by metabolic bottlenecks. The xylanolytic and simultaneous substrate utilization capabilities of T. thermohydrosulfuricus WC1 identify it as a strain of interest for CBP. However, for its development into an “industry-ready” strain as a co-culture with a cellulolytic microorganism, improved biofuel producing capabilities are needed. The practical implications of CBP-relevant phenotypes in T. thermohydrosulfuricus WC1 in relation to other Thermoanaerobacter spp. will be discussed.

Thermoanaerobacter

Biofuels

Comparative genomics

Proteomics

Microdiversity

Chaperonin-60

Microbial physiology

Consolidated bioprocessing

Ecophysiological characteristics of key members of Betaproteobacteria in freshwater bacterioplankton / Ecophysiological characteristics of key members of Betaproteobacteria in freshwater bacterioplankton

KASALICKÝ, Vojtěch

January 2012

This thesis primarily focuses on one segment of freshwater Betaproteobacteria, the Limnohabitans genus (including the RBT lineage). As opposed to other recent research directions, the major aim was to recover the members of the previously uncultured RBT lineage through their isolation from various freshwater habitats. However, the results presented in this thesis have also ambitions to go far beyond the taxonomic descriptions only; the dissertation intends to contribute significantly to unveiling of important ecophysiological characteristics of the studied lineage in a set of both laboratory and field research. Therefore, understanding of growth characteristics, mortality, diversity and life strategies of aquatic microbes is of highest importance regarding profound human impact on water quality and increasing need of drinking water supplies.

Diversity and production of phytoplankton in the offshore Mississippi River plume and coastal environments [electronic resource] / by Boris Wawrik.

Wawrik, Boris.

January 2003

Includes vita. / Title from PDF of title page. / Document formatted into pages; contains 329 pages. / Thesis (Ph.D.)--University of South Florida, 2003. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: River discharge leads to extensive phytoplankton blooms often observed in ocean color satellite images to extend far into the open ocean as high chlorophyll plumes. We investigated diversity, distribution and ecology of phytoplankton populations in the Mississippi River plume, both spatially and in the water column using molecular tools. A method was developed for the quantification of diatom/pelagophyte rbcL (large subunit of Ribulose-1,5-bisphosphate Carboxylase/Oxygenase) mRNA using quantitative PCR and applied to cultures and in the plume. The vertical structure of phytoplankton species in the Mississippi River plume was described by flow cytometry, pigments, rbcL mRNA and rbcL cDNA libraries. High productivity in the plume was associated with a large population of Synechococcus and elevated levels of cellular form IA rbcL mRNA. / ABSTRACT: rbcL cDNA libraries indicated two vertically separated clades of Prochlorococcus (high-light and low-light adapted) in addition to a diverse group of prymnesiophytes and a microdiverse clade of prasinophytes, which may have dominated the SCM (Subsurface Chlorophyll Maximum). In situ sampling and satellite image analysis were used to estimate that the plume accounted for 41% and 13% of all surface water column ix productivity in the oligotrophic Gulf of Mexico, while covering less than 3% of its area. Coastally the plume is dominated by diatoms, which are replaced by a bloom of Synechococcus as the plume moves offshore. Diatoms as indicated by pigments and rbcL clone libraries again dominated the offshore, least productive plume. 15N uptake measurements indicated that rapid recycling of ammonium despite higher levels of nitrate primarily drives production in the offshore plume. / ABSTRACT: rbcL mRNA levels and photosynthetic capacity displayed strong diel patters in three out of four time series sampled during the GRIST (Geochemical Rate/mRNA Integrated Study). In addition it was demonstrated that transcriptional regulation of the global nitrogen regulatory protein NtcA in Synechococcus WH7803 may involve a small cis-encoded anti-sense mRNA. Methods for the generation of large insert BAC (Bacterial Artificial Chromosome) from cultures and the environment were refined. Partial sequencing and genomic comparison of an ntcA containing BAC clone obtained from Synechococcus WH7803 indicated that ntcA is not part of a larger nitrogen assimilation operon in cyanobacteria. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web.

picoplankton.

phytoplankton.

gulf of mexico.

prochlorococcus.

rubisco.

gene expression.

real-time pcr.

microdiversity.

recycled production.

synechococcus.

coastal plume.

ntca.

grist.

Assessing the diversity of agrobacterial populations

Shams, Malek

19 December 2012

Agrobacterium are Alphaproteobacteria common in most soils that closely interact with plants in two respects. Firstly, they are rhizospheric bacteria saprophytically living in the rhizosphere of numerous plants and they are likely beneficial to plants. Secondly, when they harbor a dispensable Ti plasmid (i.e. tumor inducing plasmid), agrobacteria are plant pathogens able to cause the crown gall disease to most dicots and gymnosperms and some monocots. An epidemiological survey of crown gall thus also requires expert determination of the Agrobacterium taxonomy. In this thesis we evaluated the usefulness of MALDI-TOF MS technique as a high throughput tool to determine and classify agrobacteria. Then we set up a recA-based PCR method to accurately and exhaustively assess agrobacterial diversity either of isolated agrobacteria or directly in various biotopes. We applied standard biochemical, recA-based and Ti plasmid-based identification methods to study the prevalence of pathogenic and non-pathogenic agrobacteria at the country and local scales. Finally, we tested whether analyzing the internal composition of recA amplicons could be a way to directly assess the micro-diversity of agrobacterial populations using cloning sequencing or pyrosequencing approaches. The later methodology was applied to establish the actual field diversity of Agrobacterium and to evaluate whether plant genotypes differentially select agrobacteria in their root systems, providing first data upon biotic factors shaping the population structure of agrobacteria

Agrobacterium

Rhizobiaceae

Species identification

PCR detection

Bacterial community

Bacterial microdiversity

MALDI-TOF MS

Pyrosequencing

Diversity and Production of Phytoplankton in the Offshore Mississippi River Plume and Coastal Environments

Wawrik, Boris

25 September 2003

River discharge leads to extensive phytoplankton blooms often observed in ocean color satellite images to extend far into the open ocean as high chlorophyll plumes. We investigated diversity, distribution and ecology of phytoplankton populations in the Mississippi River plume, both spatially and in the water column using molecular tools. A method was developed for the quantification of diatom/pelagophyte rbcL (large subunit of Ribulose-1,5-bisphosphate Carboxylase/Oxygenase) mRNA using quantitative PCR and applied to cultures and in the plume. The vertical structure of phytoplankton species in the Mississippi River plume was described by flow cytometry, pigments, rbcL mRNA and rbcL cDNA libraries. High productivity in the plume was associated with a large population of Synechococcus and elevated levels of cellular form IA rbcL mRNA. rbcL cDNA libraries indicated two vertically separated clades of Prochlorococcus (high-light and low-light adapted) in addition to a diverse group of prymnesiophytes and a microdiverse clade of prasinophytes, which may have dominated the SCM (Subsurface Chlorophyll Maximum). In situ sampling and satellite image analysis were used to estimate that the plume accounted for 41% and 13% of all surface water column ix productivity in the oligotrophic Gulf of Mexico, while covering less than 3% of its area. Coastally the plume is dominated by diatoms, which are replaced by a bloom of Synechococcus as the plume moves offshore. Diatoms as indicated by pigments and rbcL clone libraries again dominated the offshore, least productive plume. 15N uptake measurements indicated that rapid recycling of ammonium despite higher levels of nitrate primarily drives production in the offshore plume. rbcL mRNA levels and photosynthetic capacity displayed strong diel patters in three out of four time series sampled during the GRIST (Geochemical Rate/mRNA Integrated Study). In addition it was demonstrated that transcriptional regulation of the global nitrogen regulatory protein NtcA in Synechococcus WH7803 may involve a small cis-encoded anti-sense mRNA. Methods for the generation of large insert BAC (Bacterial Artificial Chromosome) from cultures and the environment were refined. Partial sequencing and genomic comparison of an ntcA containing BAC clone obtained from Synechococcus WH7803 indicated that ntcA is not part of a larger nitrogen assimilation operon in cyanobacteria.

Picoplankton

Phytoplankton

Real-Time PCR

gene expression

RubisCO

Gulf of Mexico

Prochlorococcus

Synechococcus

Coastal Plume

recycled production

microdiversity

GRIST

ntcA

American Studies

Arts and Humanities

Assessing the diversity of agrobacterial populations / Évaluation de la diversité des populations d'Agrobacterium

Shams, Malek

19 December 2012

Les bactéries du genre Agrobacterium forment un ensemble taxonomiquement diversifié composé de nombreuses espèces, présent dans la plupart des sols et des rhizosphère. Les agrobactéries sont le plus souvent anodines voire stimulatrices de la croissance des plantes. Par contre, celles qui hébergent un plasmide Ti induisent la maladie de la galle du collet à de nombreuses plantes d'intérêt agronomique. Dans ce contexte, nous avons d'une part donné l'état actuel des connaissances sur la taxonomie du genre Agrobacterium, et nous avons fait une revue des méthodes d'isolement et de typage de ces bactéries. D'autre part, nous avons cherché à mettre au point des méthodes d'identification rapides et fiables des différentes espèces d'agrobactérie. La méthode de MALDI-TOF MS a permis d'identifier les espèces mais elle n'était pas assez résolutive pour typer des souches et encore moins la présence de plasmides Ti dans les isolats. Nous avons alors développé des amorces de PCR spécifiques de 17 espèces, du genre Agrobacterium et de la famille Rhizobiaceae. Ces amorces se sont révélées efficaces pour identifier les bactéries cultivées et aussi pour détecter leur présence dans des communautés microbiennes. Nous avons utilisé ces outils pour étudier la répartition des agrobactéries à l'échelle d'un pays, d'une station et entre sols nus et sols rhizosphériques en utilisant soit des isolats soit des ADN extraits des différents environnements. Enfin, nous avons montré que le clonage-séquençage ou le séquençage à haut débit d'amplicons obtenus à partir d’ADN de communautés microbiennes nous permettaient de connaître la diversité des populations d'agrobactéries / Agrobacterium are Alphaproteobacteria common in most soils that closely interact with plants in two respects. Firstly, they are rhizospheric bacteria saprophytically living in the rhizosphere of numerous plants and they are likely beneficial to plants. Secondly, when they harbor a dispensable Ti plasmid (i.e. tumor inducing plasmid), agrobacteria are plant pathogens able to cause the crown gall disease to most dicots and gymnosperms and some monocots. An epidemiological survey of crown gall thus also requires expert determination of the Agrobacterium taxonomy. In this thesis we evaluated the usefulness of MALDI-TOF MS technique as a high throughput tool to determine and classify agrobacteria. Then we set up a recA-based PCR method to accurately and exhaustively assess agrobacterial diversity either of isolated agrobacteria or directly in various biotopes. We applied standard biochemical, recA-based and Ti plasmid-based identification methods to study the prevalence of pathogenic and non-pathogenic agrobacteria at the country and local scales. Finally, we tested whether analyzing the internal composition of recA amplicons could be a way to directly assess the micro-diversity of agrobacterial populations using cloning sequencing or pyrosequencing approaches. The later methodology was applied to establish the actual field diversity of Agrobacterium and to evaluate whether plant genotypes differentially select agrobacteria in their root systems, providing first data upon biotic factors shaping the population structure of agrobacteria

Agrobacterium

Rhizobiaceae

Identification des espèces

Détection par PCR

Communauté bactérienne

Microdiversité bactérienne

MALDI-TOF MS

Pyroséquençage

Agrobacterium

Rhizobiaceae

Species identification

PCR detection

Bacterial community

Bacterial microdiversity

MALDI-TOF MS

Pyrosequencing

577.8

Relation structure-activité des lipopolysaccharides isolés des bactéries sulfato-réductrices de la flore intestinale chez le sujet sain et diabétique / Structure-activity relationships of lipopolysaccharides isolated from gut microbiota Sulfate-Reducing Bacteria in healthy and diabetic subjects

Zhang-Sun, Wei

02 December 2013

Des études ont récemment mis en évidence le rôle des lipopolysaccharides (LPS) des bactéries à Gram négatif de la flore intestinale dans le processus de l’inflammation conduisant à l’obésité et au diabète de type 2.Le présent travail est réalisé dans le cadre d’une collaboration entre les équipes du Dr. Caroff (U. Paris-Sud, Orsay) et du Pr. Zhao (U. Jiao Tong, Shanghai). Les expériences présentées ont été réalisées lors de séjours dans les deux laboratoires.Il a été démontré en Chine que des bactéries Sulfato-réductrices (SRB) à Gram négatif étaient présentes en plus forte proportion dans la flore intestinale chez les souris suivant un régime gras. Les mêmes résultats ont été observés chez l'homme. L’hypothèse selon laquelle des SRB seraient à l’origine de grandes quantités d’endotoxines chez les obèses et les patients diabétiques a été émise. Plusieurs souches de SRB isolées de la flore intestinale humaine d’un sujet sain et d’un sujet diabétique ont été cultivées en Chine. Des études de relation structure/activité des LPS isolés de ces bactéries ont été réalisées dans le laboratoire Français pour déterminer leur rôle dans le développement des maladies métaboliques. Les souches isolées des deux sujets ont pu être classées dans le genre Desulfovibrio. Les LPS correspondants ont été extraits et purifiés par des méthodes mises au point dans l’équipe d’Orsay. La structure chimique a été élucidée par les méthodes suivantes : Electrophorèse, Chromatographie sur couche mince, Chromatographie en phase gazeuse et Spectrométrie de masse MALDI. C’est ainsi que des spectres de masse ont été obtenus et que la structure des lipides A, principes actifs des LPS, isolés de SRB a été décrite pour la première fois. Les activités biologiques testées (TNFα, IL-6) varient en fonction du nombre d’acides gras présents. Les LPS de SRB du patient sain ont une structure variable (Smooth versus Rough) en fonction de la quantité de fer présent dans le milieu, et ceux isolés du patient diabétique présentent des structures atypiques qui ne sont pas toutes inflamogènes. Une molécule membranaire inconnue, que nous avons nommée « Glycosyl’X » était co-extraite avec les LPS. Elle joue apparemment un rôle important dans la croissance des SRB et a été étudiée après des étapes de purification complexes. Les structures et le pouvoir inflammatoire de ces molécules dont la structure varie avec les souches, et qui chélatent le fer, ont été étudiées. Elles sont de nature principalement osidique et fixées à la membrane. La proportion de ces molécules par rapport aux LPS varie avec la quantité de fer disponible dans le milieu. Un milieu riche en fer favorise la croissance des Desulfovibrio portant les Glycosyl’X qui n’ont pas de pouvoir inflammatoire eux-mêmes, mais entrent en compétition avec les LPS, modulant ainsi indirectement l’activité de ces derniers. L’augmentation du nombre de Desulfovibrio conduisant à l’augmentation des molécules Glycosyl’X pourrait aussi moduler positivement (par présentation) ou négativement (par élimination des bactéries) l’adsorption du fer dans les intestins dont l’équilibre est essentiel pour l’homéostasie métabolique.Par ailleurs, la croissance des Desulfovibrio augmente la production d’Hydrogène Sulfuré connu pour son action délétère sur les cellules. Nous favorisons l’hypothèse selon laquelle son action sur la disjonction des cellules épithéliales permettrait le passage des différents LPS relargués par la flore Gram-négative intestinale, et même des bactéries entières, vers la circulation sanguine. / Recent studies have highlighted the role of lipopolysaccharide (LPS) in the intestinal flora (gut microbiota) which could contribute to the inflammation process leading to obesity and type 2 diabetes. This thesis is part of a collaborative project between the laboratories of Dr. Caroff (U. Paris -Sud, Orsay, France) and Prof. Zhao (U. Jiao Tong , Shanghai, China). It has been shown by Pr.Zhao’s team in 2010 that the Sulfate -Reducing Bacteria (SRB) were presented in greater proportion in the intestinal mice flora following a fat diet compared to mice following a normal diet. The same results were observed in humans. The starting hypothesis was that SRB could produce a large amount of endotoxin in obese and diabetic patients and play a role in the development of metabolic diseases. Several SRB strains isolated from the human intestinal flora of a healthy subject and of a diabetic subject were grown in the Chinese laboratory. Studies of their LPS structure / activity relationships were carried out in the French laboratory. The aim of this study was to determine their roles in the development of metabolic diseases.Strains isolated from the two subjects could be classified in the Desulfovibrio genus. The corresponding LPS were extracted and purified by the methods developed in the French laboratory. The chemical structure was elucidated by the following methods: Electrophoresis, Thin layer chromatography, Gas chromatography and MALDI mass spectrometry. The mass spectra were obtained and the structure of lipid A, the active part of LPS isolated from SRB was described here for the first time. The biological activities test (TNFα, IL-6) vary depending on the number of fatty acids present in their lipid A structure. The LPS of SRB isolated from the healthy patient had a variable structure (Smooth versus Rough) depending on the amount of iron present in the medium, and those isolated from diabetic patients had atypical structures are not all inflamogenic .An unknown membrane molecule, which we named "Glycosyl'X" was co-extracted with the LPS. It apparently plays an important role in the growth of SRB was investigated after complex purification steps. The structures and the inflammatory power of these molecules variying with strains chelating iron were studied. They are mainly of glycosidic nature and linked to the bacterial membrane.The proportion of these molecules relatively to LPS varies with the amount of iron in the medium. An environment rich in iron promotes the growth of Desulfovibrio Glycosyl'X, molecules but competes with LPS and indirectly modulates the activity of the latter. The increase number of Desulfovibrio leading to increased Glycosyl'X molecules may also modulate positively (by presentation) or negatively (by killing bacteria) the absorption of iron in the intestines which balance is essential for metabolic homeostasis.Furthermore, the growth of Desulfovibrio increasing the production of Hydrogen Sulfide is known for its deleterious effects on the cells. We favor the hypothesis that its action on the separation of epithelial cells favors the passage of different LPS released by the Gram- negative of intestinal flora and even whole cell bacteria into the bloodstream.

SRB

LPS

Flore intestinale

Diabète

Obésité

Microdiversité

Endotoxines

ERIC-PCR

ARNr 16S

SDS-PAGE

IL-6/TNFα

MALDI

Lipide A

AraN

DHB

Kdo

Glycosyl'Xn

Fer

SRB

LPS

Gut microbiota

Diabetes

Obesity

Microdiversity

Endotoxin

ERIC-PCR fingerprinting

16S rRNA gene

SDS-PAGE

IL-6/TNFα

MALDI

Lipid A

AraN

DHB

Kdo

Glycosyl’Xn

Iron