Aspectos da relação simbiótica entre as bactérias Wolbachia (Alphaproteobacteria, Rickettsiales) e os isópodos terrestres (Crustacea, Oniscidea)

Zimmermann, Bianca Laís

January 2010

Wolbachia é uma alfaproteobactéria que apresenta simbiose com uma variedade de artrópodos e nematoides, estando entre os mais abundantes gêneros de bactérias intracelulares já descobertos. Na região Neotropical, os estudos sobre tais bactérias e seus hospedeiros, em especial isópodos terrestres, ainda são incipientes. O presente trabalho teve como objetivos: investigar as espécies de isópodos terrestres neotropicais infectados por Wolbachia; analisar a prevalência de infecção, variação genética e relações filogenéticas das linhagens presentes nessas espécies; investigar a simbiose de Wolbachia em nematoides parasitos de tatuzinhos-de-jardim e inferir sobre as possíveis rotas de transmissão horizontal da bactéria entre os isópodos terrestres e os invertebrados que possuam associações ecológicas com os mesmos. A detecção da bactéria foi realizada através de PCRs diagnósticas, utilizando-se o gene 16S rDNA. A infecção pelo simbionte foi registrada pela primeira vez em Atlantoscia floridana e Burmoniscus meeusei. As linhagens de Wolbachia que infectam as espécies nativas de isópodos terrestres, ao contrário das introduzidas, são muito diversas e não se agrupam dentro do Oniclado. Já as sequências presentes em B. meeusei não são relacionadas a nenhuma outra linhagem presente em crustáceos, e nem mesmo fazem parte de qualquer supergrupo conhecido de Wolbachia. Pela primeira vez foi evidenciada a presença da bactéria em um nematoide da família Mermithidae, Agamermis sp., endoparasito do tatu-bola Armadillidium vulgare. Uma vez que as sequências do parasito e do hospedeiro são idênticas, é possível que um evento de transmissão horizontal tenha ocorrido entre ambos. Por fim, a presença de Wolbachia foi examinada em espécies que possuiam relações ecológicas com os isópodos terrestres (predadores, parasitos, foréticos e animais que vivem sob as mesmas condições ecológicas). Entre as espécies associadas, a infecção foi registrada apenas no nematoide parasito e nos ácaros foréticos. Enquanto as linhagens do isópodo hospedeiro e do nematoide se mostraram muito similares, àquelas dos ácaros foréticos não apresentaram relação filogenética com as de seus forontes Balloniscus glaber. Interessantemente, as sequências presentes nos ácaros são proximamente relacionadas com aquelas de B. meeusei, embora mais estudos sejam necessários para esclarecer tal achado. / Wolbachia is a genus of alfaproteobacteria whose members live in symbiosis with a variety of arthropods and nematodes. It is among the richest genera of intracellular bacteria discovered to date. In the Neotropical region, studies on these bacteria and their hosts, especially terrestrial isopods, are still in the initial stages. The objectives of the present study were: to investigate the species of Neotropical terrestrial isopods infected by Wolbachia; to analyze the prevalence of infection, genetic variation, and phylogenetic relationships of the lineages present in these isopod species; to investigate the symbiosis of Wolbachia in parasitic nematodes of pillbugs; and to provide information to support inferences about the possible routes of horizontal transmission of the bacteria between the terrestrial isopods and the invertebrates that are ecologically associated with them. The bacteria were detected by means of diagnostic PCR’s, using the 16S rDNA gene. Infection by this symbiont was recorded for the first time in Atlantoscia floridana and Burmoniscus meeusei. The lineages of Wolbachia that infect the native species of terrestrial isopods, in contrast to the introduced species, are very diverse and do not group within the Oniclade. The sequences present in B. meeusei are not related to any other lineage present in crustaceans, nor to any other known supergroup of Wolbachia. This study is the first to demonstrate the presence of these bacteria in a nematode of the family Mermithidae, Agamermis sp., an endoparasite of Armadillidium vulgare. Since the sequences from the parasite and the host are identical, it is possible that a horizontal transmission event occurred between the two. Finally, the presence of Wolbachia was examined in species that are ecologically associated with terrestrial isopods (predators, parasites, phoretic species, and animals that live under the same ecological conditions). Among the associated species, the infection was recorded only in the parasitic nematode and in the phoretic mites. Whereas the lineages of the isopod host and of the nematode proved to be very similar, those of the phoretic mites showed no phylogenetic relationship with those of their phoront Balloniscus glaber. Interestingly, the sequences present in the mites are closely related to those of B. meeusei, although further studies are necessary to clarify this finding.

Wolbachia

Oniscidea

Symbiosis

Wolbachia

Neotropical terrestrial isopods

Horizontal transmission

16S rDNA

Aspectos da relação simbiótica entre as bactérias Wolbachia (Alphaproteobacteria, Rickettsiales) e os isópodos terrestres (Crustacea, Oniscidea)

Zimmermann, Bianca Laís

January 2010

Wolbachia é uma alfaproteobactéria que apresenta simbiose com uma variedade de artrópodos e nematoides, estando entre os mais abundantes gêneros de bactérias intracelulares já descobertos. Na região Neotropical, os estudos sobre tais bactérias e seus hospedeiros, em especial isópodos terrestres, ainda são incipientes. O presente trabalho teve como objetivos: investigar as espécies de isópodos terrestres neotropicais infectados por Wolbachia; analisar a prevalência de infecção, variação genética e relações filogenéticas das linhagens presentes nessas espécies; investigar a simbiose de Wolbachia em nematoides parasitos de tatuzinhos-de-jardim e inferir sobre as possíveis rotas de transmissão horizontal da bactéria entre os isópodos terrestres e os invertebrados que possuam associações ecológicas com os mesmos. A detecção da bactéria foi realizada através de PCRs diagnósticas, utilizando-se o gene 16S rDNA. A infecção pelo simbionte foi registrada pela primeira vez em Atlantoscia floridana e Burmoniscus meeusei. As linhagens de Wolbachia que infectam as espécies nativas de isópodos terrestres, ao contrário das introduzidas, são muito diversas e não se agrupam dentro do Oniclado. Já as sequências presentes em B. meeusei não são relacionadas a nenhuma outra linhagem presente em crustáceos, e nem mesmo fazem parte de qualquer supergrupo conhecido de Wolbachia. Pela primeira vez foi evidenciada a presença da bactéria em um nematoide da família Mermithidae, Agamermis sp., endoparasito do tatu-bola Armadillidium vulgare. Uma vez que as sequências do parasito e do hospedeiro são idênticas, é possível que um evento de transmissão horizontal tenha ocorrido entre ambos. Por fim, a presença de Wolbachia foi examinada em espécies que possuiam relações ecológicas com os isópodos terrestres (predadores, parasitos, foréticos e animais que vivem sob as mesmas condições ecológicas). Entre as espécies associadas, a infecção foi registrada apenas no nematoide parasito e nos ácaros foréticos. Enquanto as linhagens do isópodo hospedeiro e do nematoide se mostraram muito similares, àquelas dos ácaros foréticos não apresentaram relação filogenética com as de seus forontes Balloniscus glaber. Interessantemente, as sequências presentes nos ácaros são proximamente relacionadas com aquelas de B. meeusei, embora mais estudos sejam necessários para esclarecer tal achado. / Wolbachia is a genus of alfaproteobacteria whose members live in symbiosis with a variety of arthropods and nematodes. It is among the richest genera of intracellular bacteria discovered to date. In the Neotropical region, studies on these bacteria and their hosts, especially terrestrial isopods, are still in the initial stages. The objectives of the present study were: to investigate the species of Neotropical terrestrial isopods infected by Wolbachia; to analyze the prevalence of infection, genetic variation, and phylogenetic relationships of the lineages present in these isopod species; to investigate the symbiosis of Wolbachia in parasitic nematodes of pillbugs; and to provide information to support inferences about the possible routes of horizontal transmission of the bacteria between the terrestrial isopods and the invertebrates that are ecologically associated with them. The bacteria were detected by means of diagnostic PCR’s, using the 16S rDNA gene. Infection by this symbiont was recorded for the first time in Atlantoscia floridana and Burmoniscus meeusei. The lineages of Wolbachia that infect the native species of terrestrial isopods, in contrast to the introduced species, are very diverse and do not group within the Oniclade. The sequences present in B. meeusei are not related to any other lineage present in crustaceans, nor to any other known supergroup of Wolbachia. This study is the first to demonstrate the presence of these bacteria in a nematode of the family Mermithidae, Agamermis sp., an endoparasite of Armadillidium vulgare. Since the sequences from the parasite and the host are identical, it is possible that a horizontal transmission event occurred between the two. Finally, the presence of Wolbachia was examined in species that are ecologically associated with terrestrial isopods (predators, parasites, phoretic species, and animals that live under the same ecological conditions). Among the associated species, the infection was recorded only in the parasitic nematode and in the phoretic mites. Whereas the lineages of the isopod host and of the nematode proved to be very similar, those of the phoretic mites showed no phylogenetic relationship with those of their phoront Balloniscus glaber. Interestingly, the sequences present in the mites are closely related to those of B. meeusei, although further studies are necessary to clarify this finding.

Wolbachia

Oniscidea

Symbiosis

Wolbachia

Neotropical terrestrial isopods

Horizontal transmission

16S rDNA

Aspectos da relação simbiótica entre as bactérias Wolbachia (Alphaproteobacteria, Rickettsiales) e os isópodos terrestres (Crustacea, Oniscidea)

Zimmermann, Bianca Laís

January 2010

Wolbachia é uma alfaproteobactéria que apresenta simbiose com uma variedade de artrópodos e nematoides, estando entre os mais abundantes gêneros de bactérias intracelulares já descobertos. Na região Neotropical, os estudos sobre tais bactérias e seus hospedeiros, em especial isópodos terrestres, ainda são incipientes. O presente trabalho teve como objetivos: investigar as espécies de isópodos terrestres neotropicais infectados por Wolbachia; analisar a prevalência de infecção, variação genética e relações filogenéticas das linhagens presentes nessas espécies; investigar a simbiose de Wolbachia em nematoides parasitos de tatuzinhos-de-jardim e inferir sobre as possíveis rotas de transmissão horizontal da bactéria entre os isópodos terrestres e os invertebrados que possuam associações ecológicas com os mesmos. A detecção da bactéria foi realizada através de PCRs diagnósticas, utilizando-se o gene 16S rDNA. A infecção pelo simbionte foi registrada pela primeira vez em Atlantoscia floridana e Burmoniscus meeusei. As linhagens de Wolbachia que infectam as espécies nativas de isópodos terrestres, ao contrário das introduzidas, são muito diversas e não se agrupam dentro do Oniclado. Já as sequências presentes em B. meeusei não são relacionadas a nenhuma outra linhagem presente em crustáceos, e nem mesmo fazem parte de qualquer supergrupo conhecido de Wolbachia. Pela primeira vez foi evidenciada a presença da bactéria em um nematoide da família Mermithidae, Agamermis sp., endoparasito do tatu-bola Armadillidium vulgare. Uma vez que as sequências do parasito e do hospedeiro são idênticas, é possível que um evento de transmissão horizontal tenha ocorrido entre ambos. Por fim, a presença de Wolbachia foi examinada em espécies que possuiam relações ecológicas com os isópodos terrestres (predadores, parasitos, foréticos e animais que vivem sob as mesmas condições ecológicas). Entre as espécies associadas, a infecção foi registrada apenas no nematoide parasito e nos ácaros foréticos. Enquanto as linhagens do isópodo hospedeiro e do nematoide se mostraram muito similares, àquelas dos ácaros foréticos não apresentaram relação filogenética com as de seus forontes Balloniscus glaber. Interessantemente, as sequências presentes nos ácaros são proximamente relacionadas com aquelas de B. meeusei, embora mais estudos sejam necessários para esclarecer tal achado. / Wolbachia is a genus of alfaproteobacteria whose members live in symbiosis with a variety of arthropods and nematodes. It is among the richest genera of intracellular bacteria discovered to date. In the Neotropical region, studies on these bacteria and their hosts, especially terrestrial isopods, are still in the initial stages. The objectives of the present study were: to investigate the species of Neotropical terrestrial isopods infected by Wolbachia; to analyze the prevalence of infection, genetic variation, and phylogenetic relationships of the lineages present in these isopod species; to investigate the symbiosis of Wolbachia in parasitic nematodes of pillbugs; and to provide information to support inferences about the possible routes of horizontal transmission of the bacteria between the terrestrial isopods and the invertebrates that are ecologically associated with them. The bacteria were detected by means of diagnostic PCR’s, using the 16S rDNA gene. Infection by this symbiont was recorded for the first time in Atlantoscia floridana and Burmoniscus meeusei. The lineages of Wolbachia that infect the native species of terrestrial isopods, in contrast to the introduced species, are very diverse and do not group within the Oniclade. The sequences present in B. meeusei are not related to any other lineage present in crustaceans, nor to any other known supergroup of Wolbachia. This study is the first to demonstrate the presence of these bacteria in a nematode of the family Mermithidae, Agamermis sp., an endoparasite of Armadillidium vulgare. Since the sequences from the parasite and the host are identical, it is possible that a horizontal transmission event occurred between the two. Finally, the presence of Wolbachia was examined in species that are ecologically associated with terrestrial isopods (predators, parasites, phoretic species, and animals that live under the same ecological conditions). Among the associated species, the infection was recorded only in the parasitic nematode and in the phoretic mites. Whereas the lineages of the isopod host and of the nematode proved to be very similar, those of the phoretic mites showed no phylogenetic relationship with those of their phoront Balloniscus glaber. Interestingly, the sequences present in the mites are closely related to those of B. meeusei, although further studies are necessary to clarify this finding.

Wolbachia

Oniscidea

Symbiosis

Wolbachia

Neotropical terrestrial isopods

Horizontal transmission

16S rDNA

Diversidade de Bacteria e Archaea em solos de mangue e marisma / Bacterial and Archaeal diversity in mangrove and marisma soils

Juliano de Carvalho Cury

13 September 2006

Estudos sobre a diversidade de Bacteria em solos de mangue (Brasil) e marisma (Espanha) são escassos. A vegetação de mangue, composta por espécies como Spartina alterniflora, Rhizophora mangle, Avicennia schaueriana e Laguncularia racemosa, pode ser um dos fatores que determinam a estruturação das comunidades de procariotos. Determinações das estruturas das comunidades e de diversidade de Bacteria podem ocorrer em função das diferentes condições físico-químicas dos solos, refletindo na configuração dos processos biogeoquímicos. O objetivo deste trabalho foi avaliar a variação das estruturas das comunidades de Bacteria e Archaea, bem como a diversidade, em solos de mangue e marisma utilizando DGGE e sequenciamento parcial do rDNA 16S. As estruturas das comunidades de procariotos apresentaram variações em função de condições de vegetação. Proteobacteria e Bacteroidetes estão presentes em todos os solos estudados. A comunidade de Bacteria destes ambientes é dominada por Proteobacteria. Vários dos táxons detectados estão relacionados com ciclos biogeoquímicos importantes para os ambientes estudados. As estimativas não-paramétricas de riqueza de espécies (ACE e Chao1) mostram que solos de mangue e marisma podem conter milhares de espécies de bactérias. As comunidades de Bacteria dos solos de mangue e marisma são significativamene diferentes. Na camada mais superficial do sedimento de mangue predomina Euryarchaeota metanogênicas enquanto que na camada mais profunda predomina Crenarchaeota. Bactérias das ordens Desulfobacterales, Desulfovibrionales e Desulfuromonales podem estar relacionadas com a atividade de sulfato-redução e formação de pirita na camada anaeróbia do perfil de solo de marisma. De uma maneira geral, pode-se concluir que a diversidade e estrutura das comunidades de procariotos de ambientes estuarinos pode variar em função da vegetação estabelecida e do tipo de ambiente. Adicionalmente, solos de mangue e marisma possuem grande diversidade de procariotos, grande parte da qual é desconhecida, podendo representar elevado potencial genético para utilização biotecnológica. / The bacterial diversity in mangrove (Brazil) and marisma (Espanha) soils are largely unknown. Bacterial communities participate in biogeochemicals processes that occurs in soils of estuarine ecosystems. Determinations of the bacterial communities structures and diversity can occur in function of different physico-chemical conditions, reflecting in the biogeochemical processes. The aim of this work was to evaluate the variation of bacterial an archaeal communities structures utilizing DGGE and partial sequencing of 16S rDNA. Bacterial community structures showed more similarity between repetitions samples than the areas under different vegetation. Phylogenetic afiliation shows that several sequences were not clamped into known phyla. Proteobacteria prevails in bacterial communities of mangrove and marisma soils. Several taxa detected are associated to important biogeochemical cycles that occur in estuarine ecosystems. Analysis of species richness showed that mangrove and marisma soils can contain 200 to 6000 species of bacteria. Methanogenic Euryarchaeota was found specially in the upper sample of mangrove sediment analysed whereas the Crenarchaeota was found specially in the lower. Based on the data obtained, it can be concluded that the vegetation is one of the factors affecting the structure of bacterial and archaeal communities in mangrove soils. Additionaly, the effects of edafic factors and seasonal variations have to be considered as determining the prokaryotic community sctuctures, and bacterial and archaeal communities can respond independently to the factors that determine their community structures. Bacterial diversity can vary with the studied estuarine ecosystem. Studies are necessary concerning to diversity of Bacteria, it variation and correlation with biogeochemical process in the mangrove and marisma soils. These soils show a great diversity of bacteria, much of than unknown, which represent a great genetic potential to the biotechnology.

DNA

Ecologia microbiana

Ecossistemas de mangue

Ecossistemas estuarinos

Solos

16S rDNA

Archaea

Bacteria

Diversity

Mangrove

Marisma

Soil

Nested PCR for distinguishing Haemophilus haemolyticus from Haemophilus influenzae and Cloning and expression of fragmented Moraxella catarrhalis IgD-binding protein in E. coli

Bergström, Jennie

January 2007

ABSTRACT Nontypable Haemophilus influenzae is a common cause of otitis, sinusitis and conjunctivitis. It is the most common bacterial pathogen associated with chronic obstructive pulmonary disease (COPD). Studies have shown that nonpathogenic Haemophilus haemolyticus are often mistaken for Haemophilus influenzae due to an absent hemolytic reaction on blood agar. Distinguishing H. haemolyticus from H. influenzae is important to prevent unnecessary antibiotic use, and to understand the role of H. influenzae in clinical infections. In this study, PCR-primers for amplifying 16S rDNA sequences were used to set up a method for distinguishing H. haemolyticus from H. influenzae. The aim was to use the method for analyzing apparent H. influenzae strains, to investigate if some strains were in fact H. haemolyticus. However, because of problems with unspecific primerannealing,no conclusions could be drawn regarding misclassification of H. haemolyticus. Moraxella catarrhalis is the second most common bacterial pathogen associated with COPD. It also causes otitis and sinusitis. An important virulence factor of M. catarrhalis is the outer membrane protein Moraxella catarrhalis IgD-binding protein (MID). One part of the protein; MID764-913 , has been shown to function as an adhesin, and this part has been fragmented to further investigate its adhesive properties. The aim of this second, independent study, was to express some of these proteinfragments by cloning in E. coli. The time spent on this project was too short, and no proteins could be expressed duing this period.

COPD

colony PCR

16S rDNA

adhesin

gene cloning

Microbiology in the medical area

Characterization and identification of some indigenous Rhizobia using 16S rDNA sequence analysis

Kock, Martha Magdalena

06 December 2006

ENGLISH : The use of different characteristics (the polyphasic approach) to describe bacterial taxa is a prerequisite for a stable classification. The taxonomy of root- and stem-nodulating rhizobia is in a state of transition. As more legumes are studied, new species and genera of rhizobia are described. It is important to study the indigenous South African rhizobia, as without them a complete rhizobial taxonomy is not possible. Furthermore, strains with superior nitrogen fixation abilities may be discovered. Indigenous strains better adapted to the harsh South African environment are possible candidates for commercial inoculants for cropped legumes.Only two local studies have been done on the diversity of the indigenous rhizobia. These studies revealed the diversity of rhizobia existing in the South African context. As part of a polyphasic approach used to identify and determine the diversity of the indigenous rhizobia, 16S rDNA sequencing analysis was performed on some selected rhizobial and putative rhizobial isolates. The aim of the study was to characterise and identify the indigenous isolates by 16S rDNA sequencing analysis and compare our data with those available in the GenBank database. Results showed that most of the indigenous isolates were slow-growers belonging to the genus Bradyrhizobium. Two isolates from supposedly non-nodulating legume genera (Cassia and Senna) were found to belong to the genus Bradyrhizobium. Some of the isolates were shown to belong to the genera Mesorhizobium, Rhizobium and Sinorhizobium. The identity of five isolates was not clear and further studies need to be performed to unequivocally determine their taxonomic position. Partial sequence analysis of 16S rDNA proved a valuable tool to characterise and identify the indigenous isolates. However, the method was unable to clearly distinguish between closely related species and strains. AFRIKAANS : 'n Stabiele klassifikasiesisteem vir die beskrywing van bakteriese taksa is slegs moontlik deur verskillende eienskappe (die poli-fasiese benadering) te gebruik. Die taksonomie van die wortel- en stamnodulerende rhizobiums verander gedurig. 'n Volledige rhizobiumtaksonomie is slegs moontlik indien die inheemse Suid-Afrikaanse rhizobiums bestudeer word. Geharde inheemse rasse met voortreflike stikstofbindende vermoens kan ontdek word. Hierdie rasse is kandidate vir kommersiele inokulums vir verboude peulplante. Net twee plaaslike studies is gedoen om die diversiteit van die inheemse rhizobiums te bepaal. Die studies het bewys dat die inheemse rhizobiums baie divers is. As deel van die polifasiese benadering om die diversiteit van die inheemse rhizobiums te identifiseer en te bepaal, is 16S rDNS volgordebepaling gedoen op uitgesoekte rhizobia en sogenaamde rhizobia isolate. Die doel van die studie was die karakterisering en identifisering van die inheemse isolate deur 16S rDNS volgordebepaling en die vergelyking van die data met die beskikbaar in die GenBank databasis. Die resultate wys dat die meeste inheemse isolate stadige groeiers is en dus behoort aan die genus Bradyrhizobium. Twee isolate vanaf sogenaamde nie-nodulerende peulplantgenusse (Cassia en Senna) behoort ook tot die genus Bradyrhizobium. Sommige isolate behoort tot die genusse Mesorhizobium, Rhizobium en Sinorhizobium. Die identiteit van vyf isolate was nie duidelik nie en verdere studies is nodig om hul taksonomiese posisie ondubbelsinnig te bepaal. Die gedeeltelike volgordebepaling van die 16S rDNS was 'n waardevolle hulpmiddel om die inheemse isolate mee te karakteriseer en te identifiseer, alhoewel die metode nie tussen nabyverwante spesies en rasse kon onderskei nie. Copyright / Dissertation (MSc (Microbiology))--University of Pretoria, 1999. / Microbiology and Plant Pathology / unrestricted

16s rdns volgordebepaling

Indigenous south african rhizobia

16s rdna sequencing analysis

Inheemse suid-afrikaanse rhizobiums

UCTD

Genetická a morfologická variabilita evropského rodu Cochlodina (Mollusca: Gastropoda: Clausiliidae) se zaměřením na druh C. laminata (Montagu, 1803) / Genetic and Morphological Variability of the European Genus Cochlodina (Mollusca: Gastropoda: Clausiliidae) with Focus on Species C. laminata (Montagu, 1803)

Szalontayová, Veronika

January 2013

This thesis focuses on the genetical and morphological diversity of plaited door snail (Cochlodina laminata). While small distribution ranges are typical for most species belonging to genus Cochlodina, the distribution range of C. laminata covers most of the European continent, except for its coolest and warmest parts. It has been previously suggested that this species might in fact be a complex of several species and large genetical as well as morphological diversity has been mentioned - however, yet undescribed - in previous studies. Sequences of two mitochondrial genes were used (16S rDNA, COI) and thirteen morphological characteritics have been assessed to investigate this diversity. I discovered that the current concept of C. laminata as a species is not in accordance with the discovered genetical nor morphological variability. The original species C. laminata/C. dubiosa form a common species complex and also interpretation of C. fimbriata will need to be assessed in more detail in the future. Other Central European species are valid species.

Isolation and characterization of bacterial endophytes for growth promotion of Phaseolus vulgaris under salinity stress

Thompson, Biosha

January 2020

>Magister Scientiae - MSc / As the global human population grows, so does the demand for faster food production rates. Owing to this, agricultural practices have had to expand and move into semi-arid and arid regions, too, where frequent irrigation is essential. However, irrigated ground water contains many salt ions (mainly Na+ and Cl-) which contribute to soil salinization on croplands. Soil salinity negatively impacts crop growth and yield and thus, strategies for the alleviation of salt stress on crop plants have had to be developed. This study assessed the use of plant growth promoting bacteria (PGPB). The aim of this study was to isolate, identify and characterize bacterial endophytes isolated from the halophyte, Arctotheca calendula. Endophytes were identified using 16S rDNA and were screened for plant growth promoting properties including nitrogen fixation, phosphate and zinc solubilization, siderophore, ammonia and indole-3-acetic acid (IAA) when exposed to 0 mM, 300 mM and 600 mM NaCl. The endophytes had been identified as Erwinia persicina NBRC 102418T, Bacillus marisflavi JCM 11544T, Ochrobactrum rhizosphaerae PR17T, Microbacterium gubbeenense DSM 15944T and Bacillus zhangzhouensis DW5-4T and all of which had demonstrated some plant growth promoting characteristics. Thereafter, we aimed to demonstrate plant growth promotion of P. vulgaris cv. Star 2000 inoculated with PGPB under salinity stress. P. vulgaris cv. Star 2000 seeds were inoculated with the PGPB and exposed to 0 mM and 100 mM NaCl. Post-harvest, plants were assessed for their dry mass, cell death, superoxide concentration and nutrient content. It was discovered that salinity negatively impacted P. vulgaris cv. Star 2000’s dry mass, NaCl-induced cell death, and differentially influenced superoxide concentration, nutrient uptake and content of the leaf and root material in the inoculated and control treatments. However, the isolated PGPB had been able to mitigate the negative effects of soil salinity on P. vulgaris cv. Star 2000.

Salinity stress

16S rDNA

PGPB

IAA

Phaseolus vulgaris

Arctotheca calendula

Erwinia

Bacillus

Ochrobactrum,

Microbacterium

Utveckling och validering av en qPCR metod för detektion av DNA från tarmbakterier i blod/plasma

Johansson, Kajsa

January 2020

Enligt "Leaky gut”-hypotesen är ökad translokation av gramnegativa bakterier genom tarmslemhinnan förknippad med neuroimmuna störningar. Denna ökning av permeabiliteten i tarmslemhinnan kan orsakas av störning i tarmfloran efter antibiotikabruk eller sjukdom, vilket kan leda till inflammatoriska processer. Inflammation har sedan tidigare blivit förknippad med allvarlig depressiv störning och självmordsbeteende. Studiens syfte var att utveckla och validera en qPCR-baserad metod för att kunna detektera DNA från tarmbakterier i blod/plasma, som ett tecken på translokering av bakterier. Två primerpar för amplifiering av 16S rDNA utreddes genom observation av PCR-reaktioner med humant och bakteriellt DNA. Det mest optimala primerparets PCR effektiviteten och linjäriteten testades. Metodens funktion kontrollerades sedan med helblod och plasma med tillsats av exogent DNA från E.coli. Den utvecklade qPCR metoden detekterar bakterie DNA i prov med 10 kopior/µl, vilket gör den tillräckligt känslig för detektion av tarmbakterier i blod. / According to the "Leaky gut" hypothesis, increased translocation of gram-negative bacteria through the intestinal mucosa is associated with neuroimmune disorders. The increase of permeability of the intestinal mucosa may be caused by disturbance of the intestinal flora after antibiotic use or disease, which can lead to inflammatory processes. Inflammation has previously been associated with major depressive disorder and suicidal behavior. The purpose of the study was to develop and validate a qPCR-based method for detecting DNA from intestinal bacteria in blod/plasma, as a sign of decreased mucosal integrity. Two different primer pairs, targeting 16S rDNA, were investigated by observing their PCR reactivity with human and bacterial DNA. PCR efficiency and linearity were tested on the most optimal primer pair. The function of the method was then verified with whole blood and plasma with the addition of exogenous DNA from E.coli. The developed qPCR method detects bacterial DNA in samples at 10 copies/µl, making it sufficiently sensitive for detection of intestinal bacterial DNA in blood.

16S rDNA

Leaky gut

qPCR

translokering

tarmbakterier

Engineering and Technology

Teknik och teknologier

Effect of Soil Amendments from Antibiotic Treated Cows on Antibiotic Resistant Bacteria and Genes Recovered from the Surfaces of Lettuce and Radishes: Field Study

Fogler, Kendall Wilson

06 February 2018

Cattle are commonly treated with antibiotics that may survive digestion and promote antibiotic resistance when manure or composted manure is used as a soil amendment for crop production. This study was conducted to determine the effects of antibiotic administration and soil amendment practices on microbial diversity and antibiotic resistance of bacteria recovered from the surfaces of lettuce and radishes grown using recommended application rates. Vegetables were planted in field plots amended with raw manure from antibiotic-treated dairy cows, composted-manure from cows with different histories of antibiotic administration, or a chemical fertilizer control (12 plots, n=3). Culture-based methods, 16SrDNA amplicon sequencing, qPCR and shot-gun metagenomics were utilized to profile bacteria and characterize the different gene markers for antibiotic resistance. Culture-based methodologies revealed that lettuce grown in soils amended with BSAs had significantly larger clindamycin resistant populations compared to control conditions. Growth in BSAs was associated with significant changes to the bacterial community composition of radish and lettuce. Total sul1 copies were 160X more abundant on lettuce grown in manure and total tet(W) copies were 30X more abundant on radishes grown in manure. Analysis of shotgun metagenomic data revealed that lettuce grown in manure-amended soils possessed resistance genes for three additional antibiotic classes compared to other treatments. This study demonstrates that raw, antibiotic-exposed manure may alter microbiota and the antibiotic resistance genes present on vegetables. Proper composting of BSAs as recommended by the U.S. Department of Agriculture and Environmental Protection Agency is recommended to mitigate the spread of resistance to vegetable surfaces. / MSLFS

Compost

manure

antibiotic resistance genes

antibiotic resistant bacteria

16S rDNA amplicon sequencing

metagenomics