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Antibiotic Resistance in Aquatic Systems

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889451319 Year: Pages: 107 DOI: 10.3389/978-2-88945-131-9 Language: English
Publisher: Frontiers Media SA
Subject: Microbiology --- Science (General)
Added to DOAB on : 2017-07-06 13:27:36
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Abstract

Rivers, lakes and the ocean receive antibiotic resistance genes from human environments. The aquatic environments are a huge reservoir and exchange stage of antibiotic resistance genes.

Cooperative Adaptations and Evolution in Plant-Microbe Systems

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889455997 Year: Pages: 209 DOI: 10.3389/978-2-88945-599-7 Language: English
Publisher: Frontiers Media SA
Subject: Science (General) --- Botany
Added to DOAB on : 2019-01-23 14:53:43
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Ecological and evolutionary genetics of plant-microbe interactions is of high importance for developing the plant science since the plants originated symbiotically (via incorporation of a phototrophic cyanobacterium into a heterotrophic eukaryon) and further evolve as the multipartite symbiotic systems, harboring the enormously diverse microbial communities. The Research Topic has integrated the top-level research on the genetic interactions in the plant-microbial associations required to develop the novel evolutionary approaches in the molecular and ecological genetics of different kinds of symbioses.

The oral microbiome in an ecological perspective

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889195763 Year: Pages: 116 DOI: 10.3389/978-2-88919-576-3 Language: English
Publisher: Frontiers Media SA
Subject: Internal medicine --- Science (General)
Added to DOAB on : 2016-02-05 17:24:33
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The oral cavity harbors an immense diversity of microorganisms, including bacteria, fungi, archaea, protozoa and viruses. At health, oral microbial community is thought to be in a state of homeostasis, even after numerous perturbations (e.g., toothbrushing, food intake) a day. The breach in this homeostasis can occur for instance if the perturbations become too excessive (e.g., frequent carbohydrate intake leading to acidification of the community) or the host is compromised (e.g., inadequate immune response resulting in persistent inflammation of periodontal tissue). Aggressive antimicrobial therapy (e.g., antibiotics in case of periodontal disease or preventive antibiotic therapy before and after dental extractions) is commonly applied with all the negative consequences of this approach. So far little is known on the interplay between the environmental, host and microbial factors in maintaining an ecological balance. What are the prerequisites for a healthy oral ecosystem? Can we restore an unbalanced oral microbiome? How stable is the oral microbiome through time and how robust it is to external perturbations? Gaining new insights in the ecological factors sustaining oral health will lead to conceptually new therapies and preventive programs. Recent advances in high throughput technologies have brought microbiology as a science to a new era, allowing an open-ended approach instead of focusing on few opportunistic pathogens. With this topic we would like to integrate the current high-throughput ‘omics’ tools such as metagenomics, metatranscriptomics, metaproteomics or metabolomics with biochemical, physiological, genetic or clinical parameters within the oral microbial ecosystem. We aim to address questions underlying the regulation of the ecological balance in the oral cavity by including the following areas: • Ecology of oral microbiome at health • Ecology of oral microbiome under oral diseases • Ecology of oral microbiome during non-oral diseases • Shifts in the oral microbiome by therapeutic approaches (e.g., antimicrobials, replacement therapy, pre- and probiotics) • Modeling of oral ecological shifts (e.g., animal models, in vitro microcosm models) • Complex inter- and intra-kingdom interactions (e.g., bacterial-fungal-host) related to oral ecology • Environmental (e.g., diet, tobacco), host-related (e.g., immune response, saliva composition and flow) and biotic (e.g., bacterial competition) factors influencing oral ecology • Geographic variation in oral microbial ecology and diversity

Modulating Prokaryotic Lifestyle by DNA-Binding Proteins

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889451050 Year: Pages: 296 DOI: 10.3389/978-2-88945-105-0 Language: English
Publisher: Frontiers Media SA
Subject: Science (General)
Added to DOAB on : 2017-07-06 13:27:36
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The Overview of the Topic was the following: “One of the most active areas of research in molecular microbiology has been the study of how bacteria modulate their genetic activity and its consequences. The prokaryotic world has received much interest not only because the resulting phenomena are important to cells, but also because many of the effects often can be readily measured. Contributing to the interest of the present topic is the fact that modulation of gene activity involves the sensing of intra- and inter-cellular conditions, DNA binding and DNA dynamics, and interaction with the replication/transcription machinery of the cell. All of these processes are fundamental to the operation of a genetic entity and condition their lifestyle. Further, the discoveries achieved in the bacterial world have been of ample use in eukaryotes. In addition to the fundamental interest of understanding modulation of prokaryotic lifestyle by DNA-binding proteins, there is an added interest from the healthcare point of view. As it is well known the antibiotic-resistance strains of pathogenic bacteria are a major world problem, so that there is an urgent need of innovative technologies to tackle it. Most of the acquired resistances are spread by processes of horizontal gene transfer mediated by mobile elements in which DNA replication and gene expression are of basic interest. There is an imperative of finding new alternatives to the ‘classical’ way of treatment of bacterial infections and these new alternatives include the discovery of new drugs and of new bacterial targets. Nevertheless, these new alternatives will find a dead-end if we are unable to obtain a better understanding of the basic processes modulating bacterial gene expression. Our goal to achieve with this Topic of Frontiers is to accelerate our understanding of protein-DNA interactions. First, the topic will bring together several very active researchers in the study of gene replication, gene regulation, the strategies applied by the different proteins that participate in these processes, and their consequences. We will also acquire an in-depth knowledge of some of the mechanisms of gene regulation, gene transfer and gene replication. Further, the readers of the papers will realize the importance of the topic and will learn the most recent thinking, results, and approaches in the area”. We are fully confident that we have exceeded our expectations. Now we are proud to present the final output of the Topic, which is the eBook. It includes 24 articles contributed by 118 authors. As of today, Monday, 16th, January 2017, the total number of readings has reached 19,284, 14,921 article views, and 2,944 article downloads.

Virus Bioinformatics

Authors: --- --- ---
ISBN: 9783039218820 9783039218837 Year: Pages: 330 DOI: 10.3390/books978-3-03921-883-7 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2020-04-07 23:07:08
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Virus bioinformatics is evolving and succeeding as an area of research in its own right, representing the interface of virology and computer science. Bioinformatic approaches to investigate viral infections and outbreaks have become central to virology research, and have been successfully used to detect, control, and treat infections of humans and animals. As part of the Third Annual Meeting of the European Virus Bioinformatics Center (EVBC), we have published this Special Issue on Virus Bioinformatics.

Keywords

bioinformatics --- virus --- comparative genomics --- software --- Base-By-Base --- BBB --- poxvirus --- ASFV --- MSA --- foot-and-mouth disease virus (FMDV) --- bovine soft palate --- nasopharynx --- transcriptomics --- proteomics --- bioinformatics --- virus-host interaction --- innate immune system --- interferon-stimulated genes (ISG) --- cellular immunity --- codon frequency distribution --- HPV58 --- minor capsid protein --- TLR agonist --- prophylaxis --- virus --- infection --- fluorescent reporter protein --- image quantification --- Hepatitis C virus --- Yellow Fever Virus --- polyomavirus --- Coxsackievirus B4 --- bivalve --- virome --- RNA-seq --- RNA viruses --- sncRNA --- ADAR --- RNAi --- Marek’s disease virus (MDV) --- RNA-seq --- transcriptome --- splicing --- polycistronic viral transcripts --- primary B cells --- RB1B --- CVI988/Rispens --- ICP0 --- DNA replication --- ori --- mitochondria --- Rickettsia --- gram-positive bacteria --- APMV --- Mimivirus --- giant virus --- eukaryogenesis --- flavivirus --- non-coding RNA --- secondary structure --- endogenous viral elements --- bioinformatics --- horizontal gene transfer --- virus-to-host gene transfer --- HMM --- tobacco mosaic virus --- Drosophila --- capsid protein --- deep sequencing --- virus genomics --- hepatitis C virus --- variant calling --- sequence interpretation --- drug resistance --- bioinformatics --- alignment --- assembly --- taxonomic classification --- time series --- data transformation --- DWT --- DFT --- PAA --- data compression --- compressive genomics --- RNAseq --- honey bees --- deformed wing virus --- quasispecies --- apiary pests --- recombination --- mRNA structure --- structure database --- secondary structure --- viral mRNA --- subVOG --- structurally related --- RNA structure --- structurally homogenous --- structurally related --- mRNA families --- Amebae viruses --- viral evolution --- protein domains --- mimivirus --- dsdna viruses --- translation machinery --- pandoravirus --- NCLDV --- virology --- virus bioinformatics --- software --- systems virology --- metagenomics --- virome --- viral taxonomy --- virus classification --- genome evolution --- bacteriophage --- virosphere --- chemical organization theory --- influenza A --- virus dynamics modeling --- complex networks analysis --- viral metagenome --- groundwater --- aquifer --- AquaDiva --- sequencing library preparation --- virus proteomics --- mass spectrometry --- virus diagnostics --- data analysis --- targeted proteomics --- peptide selection --- parallel reaction monitoring

Hurdles for Phage Therapy (PT) to Become a Reality

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ISBN: 9783039213917 9783039213924 Year: Pages: 484 DOI: 10.3390/books978-3-03921-392-4 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Microbiology
Added to DOAB on : 2019-12-09 11:49:15
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Alternative treatment modes for antibiotic-resistant bacterial pathogens have become a public health priority. Bacteriophages are bacterial viruses that infect and lyse bacterial cells. Since bacteriophages are frequently bacterial host species-specific and can often also infect antibiotic-resistant bacterial cells, they could represent ideal antimicrobials for fighting the antibiotic resistance crisis. The medical use of bacteriophages has become known as phage therapy. It is widely used in Russia, where phage cocktails are sold in pharmacies as an over-the-counter drug. However, no phage product has been registered for medical purposes outside of the former Soviet Union. The current Special Issue of Viruses contains a collection of papers from opinion leaders in the field who explore hurdles to the introduction of phage therapy in western countries. The articles cover diverse topics ranging from patent to regulatory issues, the targeting of suitable bacterial infections, and the selection and characterization of safe and efficient phage cocktails. Phage resistance is discussed, and gaps in our knowledge of phage–bacterium interactions in the mammalian body are revealed, while other articles explore the use of phages in food production and processing.

Keywords

Staphylococcus aureus --- bacteriophage --- phage therapy --- vB_SauM-fRuSau02 --- Twortlikevirus --- antibiotic --- antimicrobial resistance --- magistral preparation --- compounding pharmacy --- phage therapy --- regulatory framework --- personalized medicine --- bacteriophage --- phage --- horizontal gene transfer --- co-evolution --- phage therapy --- industrial phage application --- antimicrobial resistance (AMR) --- Germany --- pH stability --- phage-host interactions --- genomics --- antibiotic-resistance --- phage preparation --- lysins --- biofilms --- typhoid fever --- Salmonella Typhi --- extended-spectrum beta lactamases (ESBL) --- Democratic Republic of the Congo --- bacteriophages --- MALDI-MS --- Staphylococcus --- bacteriophages --- phage therapy --- Kayvirus --- Viral proteins --- bacteriophage --- therapy --- phage therapy --- bacterial disease --- infection --- target selection --- Bacteriophage --- phage therapy --- resistance --- adaptation --- prophage --- production --- regulation --- phage therapy --- viral genomes --- best practices --- IND --- high-throughput sequencing --- bacteriophages --- phages --- food safety --- foodborne illness --- phage therapy --- history of science --- science communication --- bacteriophage --- phage therapy --- sustainable agriculture --- zoonosis --- antibiotic resistance --- phage therapy --- experimental therapy --- phage cocktails --- anti-phage antibodies --- prophage --- immunomodulation --- phage therapy --- evolution --- bacterial resistance --- virulence --- Listeria ivanovii --- bacteriophages --- alginate --- production --- disinfection --- phagodisinfection --- virus–host interactions --- bacteriophage efficacy --- gastrointestinal tract --- phage therapy --- bacteriophage --- phage therapy --- antimicrobial resistance --- antibiotic --- global health --- developing countries --- infectious disease --- bacteriophage --- phage --- phage therapy --- phage-resistance --- phage therapy --- bacterial infection --- capsule depolymerase --- antibiotic --- animal model --- bacterial resistance --- bacteriophage --- immunology --- innate immunity --- adaptive immunity --- human host --- phage-human host interaction --- bacterial infection --- antibiotic resistance --- bacteriophage --- antibiotic therapy --- phage therapy --- cases report --- abortive infection --- prophage --- adsorption --- Enterococcus --- rhamnopolysaccharide --- bacteriophage --- phage therapy --- Staphylococcus aureus --- biofilm --- antimicrobial --- frequency of resistance --- phage sensitivity --- resistance management --- nontraditional antibacterial --- bacteriophages --- phage therapy --- antibiotic resistance --- Pseudomonas aeruginosa --- Escherichia coli --- Staphylococcus aureus --- Brussels --- Belgium --- phage biocontrol --- patent landscape --- crop production --- bacteriophage --- phage therapy --- multidrug-resistant bacteria --- antimicrobial resistance --- bacteriophage therapy --- compassionate use --- antibiotic resistance --- phage therapy --- PTMP --- ATMP --- regulatory framework --- pharmaceutical paradigm shift --- clinical trial --- magistral formula --- personalized medicine --- phage therapy --- E. faecalis --- OrthoMCL --- antimicrobial resistance --- capsule --- Galleria mellonella --- Klebsiella pneumoniae --- phage therapy --- n/a --- antimicrobial resistance --- bacteriophage --- personalised medicines --- phage therapy --- pharmaceutical legislation --- regulatory framework

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