Diversidade de bactérias em amostras de água do mar no canal de São Sebastião / Diversity of bacteria in seawater samples at São Sebastião Channel

Bianca Caetano de Almeida

24 September 2009

A diversidade bacteriana pode ser estudada, combinando técnicas convencionais e técnicas que empreguem tecnologias modernas para sua melhor compreensão. O objetivo do trabalho foi analisar a diversidade de bactérias cultiváveis e não cultiváveis em amostras de água do mar coletadas no Canal de São Sebastião no período de agosto/2005 a março/2007. As bactérias marinhas foram quantificadas em Agar marinho e identificadas por seqüenciamento do gene 16S rDNA. A concentração dos grupos a-, b-, g- e s-proteobacteria foi verificada através da técnica de FISH. A comunidade total foi analisada através da construção de três bibliotecas mensais (novembro/2006, fevereiro/2006, fevereiro/2007). O seqüenciamento identificou 87% das bactérias marinhas como Vibrio sp. A técnica de FISH detectou maior concentração de b-proteobacteria (10,2%), em relação ao número de células totais (DAPI) que variou de 7,0x106 a 2,3x107 céls/mL. As bibliotecas de clones foram compostas pelos filos Proteobacteria, Bacteroidetes, Cyanobacteria, Firmicutes, Fusobacteria, Verrucomicrobia e Chloroflexi. / Microbial diversity can be studied by a combination of techniques of both conventional and modern approaches for better understanding. The aim of this study was analyze marine bacteria culturable and nonculturable diversity from seawater samples collected at São Sebastião Channel during August 2005 to March 2007. Marine bacteria were quantified using Marine Agar and identified by 16S rRNA sequencing. Concentration of a-, b-, g- e s-proteobacteria group was verified through three clones library monthly (November 2006, February 2006, February 2007). The sequencing identified 87% of marine bacteria such as Vibrio sp. The FISH technique to detect higher concentration of b-proteobacteria (10.2%), compared to number total cells (DAPI) which range from 7.0 x 106 to 2.3 x 107 cells/mL. Clones library were composed of the phylum Proteobacteria, Bacteroidetes, Cyanobacteria, Firmicutes, Fusobacteria, Verrucomicrobia e Chloroflexi.

16S rRNA (Sequenciamento)

Biblioteca de clones

Biodiversidade marinha

Hibridização in situ fluorescente

Proteobactéria

16S rRNA (Sequencing)

Clones libraries

Fluorescent in situ hybridization

Marine biodiversity

Proteobacteria

Altération bactérienne des minéraux dans les écosystèmes forestiers pauvres en nutriments : Analyse des communautés bactériennes et identification des mécanismes impliqués / Mineral weathering bacterial communities in nutrient-poor forest soil : anlaysis of the bacterial communities and genes involved

Lepleux, Cendrella

03 December 2012

Dans les écosystèmes forestiers pauvres en nutriments, les minéraux du sol constituent la principale source de nutriments inorganiques nécessaires à leur bon fonctionnement. Néanmoins ces nutriments ne sont pas directement accessibles aux racines des arbres. C'est l'action conjointe de facteurs abiotiques, comme le pH ou la circulation de l'eau, et biotiques comme les racines ou les microorganismes du sol dont les bactéries, qui vont conduire à l'altération de ces minéraux. A ce jour, nos connaissances sur les communautés bactériennes impliquées dans le processus d'altération et leur distribution dans des sols forestiers restent limitées, notamment à des habitats tels que la rhizosphère et la mycorhizosphère. Les objectifs de cette thèse étaient de caractériser les communautés bactériennes colonisant les minéraux du sol et leur aptitude à altérer les minéraux et enfin d'identifier les gènes bactériens impliqués. La combinaison d'approches cultivable, non cultivable et de biogéochimie sur des minéraux enterrés pendant 4 ans dans un sol forestier, a démontré que leur surface était colonisée par des communautés bactériennes spécifiques, capables d'altérer les minéraux et présentant des capacités métaboliques limitées, suggérant que ce support pourrait être considéré comme un habitat : la minéralosphère. La relation minéral/bactéries a été testée in situ via un amendement minéral sur une plantation et a mis en évidence l'impact de la disponibilité en nutriments sur la structuration des communautés bactériennes capables d'altérer les minéraux. L'étude génétique réalisée sur la souche modèle PML1(12) a révélé l'implication de plusieurs mécanismes dans la fonction altération / In nutrient-poor forest ecosystems, minerals are the main source of inorganic nutrients for the long lasting functioning of the forests. However, these nutrients are not directly accessible to the tree roots. It is the joined action of abiotic factors, such as pH and water circulation, and biotic factors such as tree roots and soil microorganisms, and notably bacteria, which leads to the solubilisation of these minerals. To date, our knowledge of the bacterial communities involved in the mineral weathering process and their distribution in forest soils is very limited and remains restricted to habitats such as the rhizosphere and mycorrhizosphere. The goals of this PhD thesis were to characterise the mineral associated bacterial communities, their ability to weather minerals and finally to identify the bacterial genes involved in the mineral weathering process. The combination of geochemical, cultivation-dependent and -independent approaches applied on minerals grounded in a forest soil during 4 years, revealed that the mineral associated bacterial communities were specific, able to weather minerals and had restricted metabolic abilities. These results suggest that minerals could be considered as a true ecological habitat: the mineralosphere. The mineral/bacteria relationship was tested in situ through a mineral amendment applied on a small-scale plantation, which has highlighted that the nutrient availability impacted the functional structure of the mineral weathering bacterial communities. At least, random mutagenesis applied on a model mineral weathering bacterial strain revealed that its mineral weathering ability resulted from several molecular mechanisms

Altération (géologie)

Géochimie (environnement)

Bactéries

Écosystèmes forestiers

Cycle des éléments minéraux

Génie génétique

Bêta-proteobacteria

Burkholderia

Minéralosphère

Métagénomique

Approche fonctionnelle

Biodisponibilité des nutriments

Weathering (geology)

Geochemistry (environment)

Bacteria

Forest ecosystem

Inorganic nutrients cycle

Genetics

Beta-proteobacteria

Burkholderia

Mineralosphere

Metagenomics

Functional approach

Nutrient bioavailability

577.3

551.9

Travel – a risk factor for disease and spread of antibiotic resistance

Angelin, Martin

January 2015

As international travel is rapidly increasing, more people are being exposed to potentially more antibiotic resistant bacteria, a changed infectious disease epidemiology, and an increased risk of accidents and crime. Research-based advice is needed to adequately inform travellers about these risks. We studied travellers who sought advice from the Travel Medicine Clinic at the Department of Infectious Diseases, Umeå University Hospital, as well as university students from Umeå, Stockholm, and Gothenburg travelling abroad for study, research, and clinical exchange programs. From retrospective data at the Travel Medicine Clinic, we found that pre-existing health problems were rare among travellers from Umeå seeking pre- travel health advice and vaccinations. In addition, we found that the travel destination and the sex of the traveller affected vaccination levels. Although hepatitis A is endemic to both Thailand and Turkey, compared to travellers to Thailand few travellers to Turkey visited the clinic for hepatitis A vaccination. The data also revealed that more women than men were vaccinated against Japanese encephalitis despite comparable trips. A prospective survey study showed that travellers felt that the pre-travel health advice they received was helpful. Two-thirds of the travellers followed the advice given although they still fell ill to the same extent as those who were not compliant with the advice. Factors outside the control of travellers likely affect the travel-related morbidity. Compared to older travellers, younger travellers were less compliant with advice, fell ill to a greater extent, and took greater risks during travel. In a prospective survey study, we found that healthcare students had higher illness rates and risk exposure when abroad compared to students from other disciplines. This difference was mainly due to the fact that healthcare students more often travelled to developing regions during their study period abroad. When abroad, half of all students increased their alcohol consumption and this was linked to an increased risk of theft and higher likelihood of meeting a new sex partner. The healthcare students participating in the survey study also submitted stool samples before and after travel. These samples were tested for the presence of antibiotic resistance, both by selective culturing for ESBL-PE (Extended-Spectrum Beta-Lactamase Producing Enterobacteriaceae) as well as by metagenomic sequencing. About one-third (35%) of the students became colonised by ESBL-PE following their study abroad. The strongest risk factor for colonisation was travel destination; for example, 70% of students who had travelled to India became colonised. Antibiotic treatment during travel was also a significant risk factor for colonisation. The stool samples from a subset of study subjects were analysed using metagenomic sequencing. From this we learned that although the majority of resistance genes in the gut microbiome remained unchanged following travel, several clinically important resistance genes increased, most prominently genes encoding resistance to sulphonamide, trimethoprim, and beta-lactams. Overall, taxonomic changes associated with travel were small but the proportion of Proteobacteria, which includes several clinically important bacteria (e.g., Enterobacteriaceae), increased in a majority of the study subjects. Clearly, there are risks associated with international travel and these risks include outside factors as well as the personal behaviour of travellers. We believe our results can be used to develop better pre-travel advice for tourists as well as university students studying abroad resulting in safer travel.

Attitudes

Magnetotactic Bacteria: Isolation, Imaging, and Biomineralization

Oestreicher, Zachery Walter John

18 December 2012

No description available.

Environmental Geology

Geobiology

Geology

Magnetotactic bacteria

Mms6, Magnetospirillum magneticum AMB-1

Mickey Hot Springs

Pavilion Lake

atomic force microscopy

confocal microscopy

Gold immunolabel

Immunohistochemstry