Microbial Community Assembly found with Sponge Orange Band Disease in Xestospongia muta (Giant Barrel Sponge)

Mulheron, Rebecca

01 August 2014

The giant barrel sponge, Xestospongia muta is an iconic and essential species of the coral reefs in South Florida. The sponge has primary roles providing ecosystem services and creating unique habitats for diverse microbial communities. On April 27, 2012 an outbreak of Sponge Orange Band Disease (SOB) was detected off the coast of South Florida. The disease begins with sponge bleaching, followed by mesohyl or “mesohyl” necrosis and often total mesohyl disintegration. Sampling from two diseased populations at Boynton Beach and Fort Lauderdale, FL took place on May 11th and May 29th, 2012. Each of the nine diseased sponges from Boynton Beach and the five diseased sponges from Fort Lauderdale had three separate mesophyl samples collected to examine the effects of disease progression on the microbial community. These included healthy mesohyl from a diseased sponge (HoD), the boundary layer which captured the advancing line of diseased mesohyl (BL) and diseased mesohyl from a diseased sponge (D). Mesohyl from three sponges with no visible signs of SOB disease were also collected from each sampling location to use for healthy controls (HC). Sequencing of the V4 region of the 16S rRNA gene was performed on all of these samples via the “454” pyrosequencing on a Titanium GS FLX platform. The microbial communities associated with the diseased samples revealed a microbiome shift that followed the progression of Sponge Orange Band Disease (SOB) and was dominated by Bacteroidetes, Protebacteria and Chloroflexi. No singular or group of microbes were solely found within the infected mesohyl of Xestospongia muta from both sampling site populations; therefore there is no unequivocal candidate as a definite microbial causative SOB agent. But there were bacteria associated with disease progression that included Armatimonadetes, Caldithrix, Chlorobi, Fibrobacteres, Fusobacteria, GN02, KSB3, OP1, OP2, OP8, Planctomycetes, SR1, TM6, Tenericutes, Verrucomicrobia, WPS-2 and ZB3. Verrucomicrobia and Plantomycetes increased significantly within the D and the BL populations, which was consistent within all the diseased sponges. This study provides a deep sequencing profile of microbial communities within Xestospongia muta affected with SOB Disease and provides a new insight into the sponge healthy microbiome.

Sponge disease

16S rRNA gene amplification

Bacterial community

Marine Biology

Oceanography

Meta-Transcriptome Profiles of the Marine Sponge, Axinella corrugata and its Microbial Consortia: A Pyrosequencing Approach

Patel, Jignasa

29 June 2012

Marine micro-organisms are important components of various biogeochemical cycles, complex food webs and ecological niches. Metagenomic sequencing can provide rapid profile of metabolic activities within the sponge and resident microbes. However, the study of metatranscriptomes from sponges using high throughput sequencing technology has only recently begun. Through this study we isolated, characterized and compared metatranscriptome profiles of Axinella corrugata host and sponge-specific microbial communities using 454 pyrosequencing technology. Four cDNA libraries (two eukaryotic and two prokaryotic) were generated from Axinella corrugata sponge samples collected in December 2009 and May 2010, and were characterized to a) reveal which metabolic genes were actively expressed and b) reveal possible interactions between the sponge and its microbial symbionts. The techniques used for isolation of mRNA and cDNA normalization also helped in optimization of whole-transcriptome amplification. More than 130,000 ESTs were generated for the two seasonal sponge samples and the metagenomic data sets were analyzed using bioinformatics tool, MG-RAST. Several stress-related transcripts were found which can increase our understanding of sensitivity of the sponge to changes in physical parameters in nature. The involvement of the sponge and its microbial consortia is depicted through actively expressed nitrogen and sulfur metabolism genes. Novel genes involved in several functional pathways may be discovered upon further studying hypothetical genes found across all four metagenomic data sets. Metatranscriptomic data sheds light on the functional role of microbes within the sponges and the extent of their involvement in sponge metabolism. 16S rRNA analysis was also carried out using genomic DNA of the same samples, to better elucidate the bacterial taxa abundance in the sponge. This study provides a profile of active mRNA trancripts in Axinella corrugata which include eukaryotic as well as prokaryotic sequences. The data analysis of this research provides new information at the cross-disciplinary interface between molecular biology and computational science.

454 Sequencing

16S rRNA analysis

Bioinformatics

Metabolism

Metatranscriptomics

Symbiosis

Sponge

Marine Biology

Development and dynamics of gut microbial communities of migratory shorebirds in the Western Hemisphere

Grond, Kirsten

January 1900

Doctor of Philosophy / Division of Biology / Brett K. Sandercock / Gastrointestinal microbiota play a vital role in maintaining organismal health, through facilitating nutrient uptake, detoxification and interactions with the immune system. Shorebirds vary widely in life-history characteristics, such as habitat, migration and breeding system, but the dynamics of their gut microbial communities are unknown. In my dissertation, I investigated composition and dynamics of gut microbiota in migratory shorebirds from embryos to 10 day old chicks, and determined environment and host-related factors affecting gut microbial communities of adults. First, I tested whether precocial chicks from three species of arctic-breeding shorebirds acquire gut microbiota before or after hatching using next-generation sequencing. In addition, I documented the dynamics of gut microbial establishment. I showed that gut microbiota were absent in shorebird embryos before hatching, but that stable gut communities established within the first three days after hatching. In addition, gut microbiota of young shorebird chicks were more similar to the environmental microbiome than later in life, suggesting that the environment is a likely source for microbial recruitment. After reaching adulthood, shorebirds migrate long distances, potentially exposing them to a wide range of microorganisms. Host phylogeny and environmental factors have both been identified as drivers of gut microbiota composition in birds in previous studies. The second part of my project aimed to compare the relative importance of host and environmental factors that underlie variation in gut microbiota composition in eight species of migratory shorebirds sampled across the North American Arctic. I found that sampling site was the main driver of variation in gut microbiota of Arctic-breeding shorebirds, and that site-related variation in gut microbiota of shorebirds was a result of differences in core bacterial taxa that occurred in more than half of the analyzed samples. A relatively large influence of local environment on gut microbiota composition of chicks and adults lead to the question: how does site affect pathogen prevalence in shorebirds? Migratory behavior has been hypothesized to have evolved as a response to variation in climatic conditions and food availability, to avoid predation, and to reduce risk of exposure to pathogens. The migratory escape hypothesis predicts avoidance of high disease prevalence areas through migration, and has been proposed as one of the main reasons that many bird species migrate to the Arctic for breeding. To test the migratory escape hypothesis in shorebirds, I screened for prevalence of seven known avian pathogens in shorebirds at different stages of migration. I did not detect the majority of pathogens we tested for, with the exception of Campylobacter jejuni and C. coli. Prevalence of C. jejuni in shorebirds was linked to sampling sites but not shorebird species. My dissertation is the first comprehensive study to broadly characterize the gut microbiota in shorebirds. Overall, local environment emerged as an important factor in shaping microbiota composition in Arctic-breeding shorebirds throughout my dissertation research. The role of local environment in shaping gut microbiota invites future investigations of the interactions among shorebirds and the microorganisms present in their environment, as well as the functions gut microbiota perform within their shorebird hosts.

Gut microbiota

16S rRNA gene

Long-distance migration

Early-life development

pathogen prevalence

Arctic-breeding shorebirds

Shine-Dalgarno Anti-Shine-Dalgarno Sequence Interactions and Their Functional Role in Translational Efficiency of Bacteria and Archaea

Abolbaghaei, Akram

January 2016

Translation is a crucial factor in determining the rate of protein biosynthesis; for this reason, bacterial species typically evolve features to improve translation efficiency. Biosynthesis is a finely tuned cellular process aimed at providing the cell with an appropriate amount of proteins and RNAs to fulfill all of its metabolic functions. A key bacterial feature for faster recognition of the start codon on mRNA is the binding between the anti-Shine-Dalgarno (aSD) sequence on prokaryotic ribosomes at the 3’ end of the small subunit (SSU) 16S rRNA and Shine-Dalgarno (SD) sequence, a purine-rich sequence located upstream of the start codon in the mRNA. This binding helps to facilitate positioning of initiation codon at the ribosomal P site. This pairing, as well as factors such as the location of aSD binding relative to the start codon and the sequence of the aSD motif can heavily influence translation efficiency. The objective of this thesis is to understand the SD-aSD interactions and how changes in aSD sequences can affect SD sequences in addition to the underlying impact these changes have on the translational efficiency of prokaryotes. In chapter two, we hypothesized that differences in the prevalence of SD motifs between B. subtilis and E. coli arise as a result of changes in the free 3' end of 16S rRNA which may have led B. subtilis and E. coli to evolve differently. E. coli is expected to be more amenable to the acquisition of SD motifs that do not perfectly correspond with its free 3’ 16S rRNA end than B. subtilis. Further, we proposed that the evolutionary divergence of these upstream sequences may be exacerbated in B. subtilis by the absence of a functional S1 protein. Based on the differences between E. coli and B. subtilis, we were able to identify SD motifs that can only perfectly base pair in one of the two species and are expected to work well in one species, but not the other. Furthermore, we determine the frequency and proportion of these specific SD motifs that are expected to be preferentially present in one of the two species. Our motif detection is in keeping with the expectation that the predicted five categories of SD that are associated with B. subtilis and are expected to be less efficient in E. coli exhibit greater usage in the former than latter. Similarly, the predicted category of SD motifs associated with the E. coli 16S rRNA 3’ end is used more frequently in E. coli.Across prokaryote genomes, translation initiation efficiency varies due to codon usage differences whereas among genes, translation initiation varies because different genes vary in SD strength and location. In chapter 3 we hypothesized that there is differential translation initiation between 16 archaeal and 26 bacterial genomes. Translation initiation was found to be more efficient in Gram-positive than in Gram-negative bacteria and also more efficient in Euryarchaeota than in Crenarchaeota. We assessed the efficiency of translation initiation by measuring: i) the SD sequence’s strength and position and ii) the stability of the secondary structure flanking the start codon, which both affect accessibility of the start codon

Shine-Dalgarno

Anti-Shine-Dalgarno Sequence

translational efficiency

Bacteria and Archaea

16S rRNA

Translation initiaion

Implication de la biogenèse des ribosomes dans la tumorigenèse / Implication of ribosome biogenesis in tumor progression

Belin, Stéphane

14 December 2009

Il est maintenant clairement établi que la biogenèse des ribosomes est l’un des nombreux processus cellulaires qui voit sa régulation profondément modifiée au cours de la transformation cellulaire.Toutefois, si il est bien décrit que le taux synthèse des ribosomes est augmenté au cours du processus tumoral, de plus en plus de données suggèrent que les étapes posttranscriptionnelles peuvent aussi être altérées. Dans ce contexte biologique, les objectifs de cette thèse sont de déterminer si : i) la maturation de l’ARNr est altérée en plus de l’augmentation de sa synthèse ; ii) cette altération peut conduire à la synthèse de ribosomes modifiés dont la fonction est altérée ; iii) ces modifications participent directement à la dérégulation traductionnelle observée dans les cellules cancéreuses. Pour cela, nous avons étudié les principales étapes de la biogenèse des ribosomes ainsi que la composition des ribosomes et leurs capacités fonctionnelles dans différents modèles de progression et/ou d’agressivité tumorale. Les résultats obtenus montrent qu’en plus de l’augmentation du taux de synthèse des ribosomes, les étapes post-transcriptionnelles sont modifiées, en particuliers le niveau de méthylation de l’ARNr. Ces modifications sont associées à des défauts importants de traduction (saut de codon stop, incorporation erronée des acide-amines) et particulièrement à une augmentation de la traduction IRES-dépendante de facteur clefs de la tumorigénèse. Dans leur ensemble, ces résultats suggèrent que les modifications de la biogenèse des ribosomes pourraient être une étape clef de la cancérogenèse, en modifiant les capacités traductionnelles des ribosomes cytoplasmiques / Ribosome biogenesis is a fundamental and extremely complex cell process. In mammals, ribosome synthesis coordinates the assembly of 80 proteins and 4 rRNA to form the two ribosomal sub-units. The maturation of the ribosome is a multi-step post-transcriptional process essential to obtain functional ribosomes. It is now well demonstrated that ribosome biogenesis and its regulation is altered during transformation process. However, if the increase of ribosome synthesis in cancer cell is well documented, there are numerous recent data suggesting that post-transcriptional steps could also be altered. In this biological context, the objectives of my Ph.D were to determine if: i) the maturation of rRNA is altered during the increase of ribosome synthesis; ii) these alterations could modify the ribosomes and alter their function and iii) these modifications directly participate to the deregulation of translation observed in cancer cells. We have explored the major steps of ribosome biogenesis as well as the structure of the cytoplasmic ribosomes and their functional capacity in different cellular models of tumor progression and/or aggressively. The results obtained show that in addition of the increase of the level of ribosome synthesis, post-transcriptional modifications are altered, particularly the level of rRNA methylation. These modifications are associated with strong defect of translation (stop codon bypass, misincorporation of amino-acid) and an increase of the IRES-dependant translation of important factors playing a crucial role in tumorigenesis. These results suggest that modifications of ribosome biogenesis could be a key step of cancer cell transformation

Ribosomes

ARNr

Méthylation

Cancer

Traduction

IRES

Ribosome

RRNA

Methylation

Cancer

Translation

IRES

571.658

Genetic Characterization of the Gut Microbiome of Hajj Pilgrims

Beaudoin, Christopher

05 1900

Hajj, the annual Islamic pilgrimage to Makkah, Saudi Arabia, is a unique mass gathering event that brings more than 2 million individuals from around the world. Several public health considerations, such as the spread of infectious diseases, must be taken into account with this large temporary influx of people. Gastrointestinal diseases, such as diarrhea, are common at Hajj, yet little is known about the etiology. The human gut microbiome, collection of organisms residing within the intestinal tract, has been under intense study recently, since next generation DNA sequencing technologies allow for extensive surveying of genetic material found in complex biological samples, such as those containing many different organisms. Thus, using 16S rRNA and metagenomic shotgun sequencing, we have characterized the gut microbiome of over 612 pilgrims with and without diarrhea. Several metadata factors, such as hospitalization and different comorbidities, were found to have significant effects on the overall gut microbiome composition. Metagenomic shotgun sequencing efforts revealed the presence of antimicrobial resistance genes originating from disparate regions from around the world. This study provides a snapshot of information concerning the health status of the gut microbiome of Hajj pilgrims and provides more context to the investigation of how to best prepare for mass gathering events.

Hajj Pilgrimage

gut microbiome

metagenomic shotgun sequencing

16S rRNA sequencing

antimicrobial resistance

mass gathering event

Ribosomal RNA Mutations that Inhibit the Activity of Transfer-Messenger RNA of Stalled Ribosomes

Crandall, Jacob N.

13 April 2010

In eubacteria, stalled ribosomes are rescued by a conserved quality-control mechanism involving transfer-messenger RNA (tmRNA) and its protein partner SmpB. Mimicking a tRNA, tmRNA enters stalled ribosomes, adds Ala to the nascent polypeptide, and serves as a template to encode a short peptide that tags the nascent protein for destruction. To further characterize the tagging process, we developed two genetic selections that link tmRNA activity to cell death. These negative selections can be used to identify inhibitors of tagging or to identify mutations in key residues essential for ribosome rescue. Little is known about which ribosomal elements are specifically required for tmRNA activity. Using these selections, we isolated ribosomal RNA mutations that block the rescue of ribosomes stalled at rare Arg codons or at the inefficient termination signal Pro-opal. We find that deletion of A1150 in the 16S rRNA blocks tagging regardless of the stalling sequence, suggesting that it inhibits tmRNA activity directly. The C889U mutation in 23S rRNA, however, lowers tagging levels at Pro-opal and rare Arg codons but not at the 3'-end of an mRNA lacking a stop codon. We conclude that the C889U mutation does not inhibit tmRNA activity per se but interferes with an upstream step intermediate between stalling and tagging.

rRNA

ribosome

helix 38

A-site finger

tmRNA

SmpB

trans-translation

Biochemistry

Chemistry

N-TERMINAL DOMAIN OF rRNA METHYLTRANSFERASE ENZYME RsmC IS IMPORTANT FOR ITS BINDING TO RNA AND RNA CHAPERON ACTIVITY

Kshetri, Man B.

19 May 2021

No description available.

Biochemistry

Vliv komerčních probiotických preparátů na složení střevního mikrobiomu člověka / Influence of commercial probiotic preparations on human intestinal microbiome composition

Balatka, Štěpán

January 2021

The intestinal microflora is an extensive ecosystem of microorganisms that consists of symbiotic and pathogenic species. The microflora is responsible for many important functions in the human body. An unquestionable function is that it affects the health state of the host. The higher the biodiversity, the greater the benefit for the host. However, it is necessary to point out that this should not include a high diversity of pathogenic bacterial species. There are many "beneficial" species, especially from the Bifidobacterium and Lactobacillus families. In recent decades, the popularity of supplementing these "beneficial" species with various supplementary diets (e.g. probiotics) has been growing a lot. The presented diploma thesis deals with pilot studies of liquid commercial probiotic preparations from American companies Ascended Health (not available on the Czech market) and their effects on the human microbiome. The study involved 9 volunteers who provided 70 fecal samples before, during, and after use of the studied products. Two methods were used to determine the biodiversity of intestinal bacterial species. Both are based on the identification by bacterial DNA that encodes gene 16S rRNA. The first method uses PCR-DGGE technique and then identification by Sanger sequencing. The second method...

Klasifikace bakterií pomocí markerových genů / Bacteria Classification Based on Marker Genes

Pelantová, Lucie

January 2020

The aim of this work is proposal of new method for bacteria classification based on sequences of marker genes. For this purpose was chosen 10 marker genes. Resulting MultiGene classifier processes data set by dividing it in several groups and choosing gene for each group which can distinguish this group with best results. This work describes implementation of MultiGene classifier and its results in comparison with other bacteria classifiers and with classification based entirely on gene 16S rRNA.