Toxicity Studies Of Per- and Polyfluoroalkyl Substances (PFAS)

Shittu, Adenike Rofiyat

02 September 2021

No description available.

Biology

Molecular Biology

Toxicology

Environmental Health

Genetics

PFAS Per- and Polyfluoroalkyl Substances

PFOA Perfluorooctanoic acid

PFOS Perfluorooctane Sulphonate

Human Gut Microbiome

Bacteria

Unravelling the termite digestion process complexity - a multi-omics approach applied to termites with different feeding regimes

Marynowska, Martyna

24 April 2020

With its unique consortium of microorganisms from all domains of life, termite gut is considered one of the most efficient lignocellulose degrading systems in nature. Recently, host diet and taxonomy as well as gut microenvironmental conditions have emerged as main factors shaping microbial communities in termite guts. The aim of this thesis was to investigate this highly efficient lignocellulolytic system at holobiont level, with a particular focus on gut microbiome function and composition in relation to the host diet. As a starting point, we optimised a complete framework for an accurate termite gut prokaryote-oriented metatranscriptomics, which was at the basis of all subsequent sequencing assay designs and analyses performed in the course of the work. Afterwards, we characterised the compositions and functions of biomass-degrading bacterial communities in guts of plant fibre- and soil-feeding higher termites, proving the existence of functional equivalence across microbial populations from different termite hosts. We also showed that each termite is a reservoir of unique microorganisms and their accompanying genes. We further extended above approach to metagenomics and bacterial genomes reconstruction and we applied it to explore the process of biomass digestion in the different sections of the highly compartmented gut of soil feeding Labiotermes labralis. We showed that primarily cellulolytic activity of the termite host was restricted to foregut and midgut, while bacterial contribution was most pronounced in P1 and P3 hindgut compartments and included activities targeting broad range of lignocellulose components. Finally, we investigated the adaptation of a laboratory-maintained grass-feeding higher termite colony of Cortaritermes spp. to Miscanthus diet at host and symbiont levels. A natural system of a termite gut was shown to progressively change in composition to yield a consortium of microbes specialised in degradation of a specific biomass. Overall, the integrative omics approach proposed here provide a framework for a better understanding of a complex lignocellulose degradation by a higher termite gut system and pave a road towards its future bioprospecting. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Biologie moléculaire

Isoptera

Termite gut

Termite gut microbiome

Carbohydrate-active enzymes

Metatranscriptomics

16S rRNA gene sequencing

Metagenomics

Investigating Anaerobic Choline Degradation Pathways from Citrobacteramalonaticus CJ25 and Methanococcoides methylutens Q3c

Kashyap, Jyoti

16 June 2022

No description available.

Microbiology

Climate Change

The effect of imperfect resource conversion and recurring perturbations on byproduct cross- feeding chains in digital communities

Frejborg, Filippa

January 2021

The gut microbiome plays a vital role in human health. Disturbances of this microbial system is associated with diseases such as obesity and inflammatory bowel disease. In populations of microbial species, many organisms partake in byproduct cross-feeding interactions, where byproducts from one organism are consumed by other microbes. Using the digital evolution software Avida, I studied the effect of recurring perturbations and imperfect resource conversion on the evolution of byproduct cross-feeding chains in digital communities. To investigate the effect of perturbation and conversion rate on digital organisms, I evolved digital communities for 200,000 updates in an unperturbed environment that could hold 50 different resource types, each produced as a byproduct of consuming another resource. At 200,000 updates, 50 or 60 % of all organisms were removed at various intervals during periods of different lengths, with a conversion rate less than 100 % between resources in the byproduct chain. I found that 0.9 conversion rate caused communities to evolve longer cross-feeding chains. A conversion rate of 0.5 resulted in communities with much shorter chains, more similar in length to byproduct chains in the human gut. Perturbation events seem to affect chain length only under certain conditions when energy is lost between resources, for example when 60 % of all organisms were removed every 50th update on average. It appears that conversion loss makes digital communities more robust against the effects of perturbations, and that it might protect these communities from going extinct.

byproduct cross-feeding

cross-feeding interactions

digital evolution

digital organisms

gut microbiome

recurring perturbations

resource conversion

Biological Sciences

Biologiska vetenskaper

Other Biological Topics

Annan biologi

Effects of recurring perturbations on byproduct cross-feeding chain lengths in a digital microbiome

Schwarz, Johanna

January 2021

The human gut microbiome is a complex ecosystem with hundreds of species interacting with each other and the host. One function of the microbiome is to break down undigested nutrients into smaller nutrients, sometimes available for uptake by the host. The digestion of such macromolecules can involve several species where one feeds on another’s byproducts, forming a large cross-feeding network. The method of digital evolution can be of great aid in studying such complex ecosystems by creating models of the studied system. In this study, the digital evolution software Avida was used to study the effects of perturbations in the system on byproduct cross-feeding chain length. Intense perturbations were found to shorten the chain lengths in general whereas weaker perturbations had either a small or no effect. When perturbations ceased, most byproduct chains displayed recovery to lengths similar to the preperturbation lengths. This indicates that byproduct chain lengths may be kept short by common ecological mechanisms alone, explaining why very long chains are rarely observed while still theoretically possible.

Avida

byproduct chains

cross-feeding

digital evolution

human gut-microbiome

temporal disturbance.

Evolutionary Biology

Evolutionsbiologi

Microbiology

Mikrobiologi

Other Biological Topics

Annan biologi

DETERMINATION OF STRATEGIC PRIORITIES FOR A MICROBIOME COMPANY THROUGH ANALYSIS OF TECHNICAL CAPABILITIES AND CURRENT MARKET LANDSCAPES

Andrew, Brandon E.

29 May 2020

No description available.

Biology

Entrepreneurship

microbiome

metagenomics

commercial strategy

human gut pathogens

therapeutics development

platform-based discovery optimization

medical foods

probiotics

biotech startup business strategy

human gut microbiome

The Role of Diet and Phytochemicals for the Prevention of Pre-Clinical Prostate Cancer and Impact on Gut Microbiome Structure

Geraghty, Connor Mulroy

January 2020

No description available.

Nutrition

Biology

Microbiology

prostate cancer

tomato

lycopene

gut microbiome

phytochemical

diet

nutrition

dietary intervention

cancer

TRAMP

vitamin D

soy

soy isoflavone

mouse

Characterization of Growth Hormone's Role on the Gut Microbiome

Jensen, Elizabeth A.

22 September 2020

No description available.

Biomedical Research

Endocrinology

Histology

Microbiology

Molecular Biology

growth hormone

gut microbiome

intestines

GHKO mice

bGH mice

microbial maturity

predictive metabolic function

Artificial intelligence-based clinical classification of diseases: Utilizing gut microbiota as a feature for supervised learning and diagnostic screening of inflammatory bowel diseases

Manandhar, Ishan

January 2021

No description available.

Biomedical Research

Bioinformatics

Gut Microbiome, Intestinal Permeability, and Tissue Bacteria in Metabolic Disease: Perpetrators or Bystanders?

Chakaroun, Rima M., Massier, Lucas, Kovacs, Peter

20 April 2023

The emerging evidence on the interconnectedness between the gut microbiome and host metabolism has led to a paradigm shift in the study of metabolic diseases such as obesity and type 2 diabetes with implications on both underlying pathophysiology and potential treatment. Mounting preclinical and clinical evidence of gut microbiota shifts, increased intestinal permeability in metabolic disease, and the critical positioning of the intestinal barrier at the interface between environment and internal milieu have led to the rekindling of the “leaky gut” concept. Although increased circulation of surrogate markers and directly measurable intestinal permeability have been linked to increased systemic inflammation in metabolic disease, mechanistic models behind this phenomenon are underdeveloped. Given repeated observations of microorganisms in several tissues with congruent phylogenetic findings, we review current evidence on these unanticipated niches, focusing specifically on the interaction between gut permeability and intestinal as well as extra-intestinal bacteria and their joint contributions to systemic inflammation and metabolism. We further address limitations of current studies and suggest strategies drawing on standard techniques for permeability measurement, recent advancements in microbial culture independent techniques and computational methodologies to robustly develop these concepts, which may be of considerable value for the development of prevention and treatment strategies.

info:eu-repo/classification/ddc/610

ddc:610