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Beneficial Microbes 2024

About Conference


Conference Series summon all the participants from all over the world to attend 8th International conference on Microbes and Beneficial Microbes Which is going to be held during June 20-21, 2024 Dublin, Ireland which includes keynote presentations, Oral talks, Poster presentations and Exhibitions

 

Beneficial Microbes 2024 aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results on all aspects of Beneficial Micro- organisms, Microbes. It also provides a premier interdisciplinary platform for researchers, practitioners and educators to present and discuss the most recent innovations, trends, and concerns as well as practical challenges encountered and solutions adopted in the fields of Beneficial Microbes.

 

All honourable authors are kindly encouraged to contribute to and help shape the conference through submissions of their research abstracts, papers and e-posters in all areas of Microbiology are cordially invited for presentation at the conference.

 

Beneficial Microbes 2024 is anticipating participants from 40 and more countries across the globe and the two day conference will provoke plenary sessions, Keynote speeches, Poster, and Oral presentations. This program provides two days of robust discussions on recent advancements and new strategies for development of new materials for global requirements.

We would also like to bring to your kind notice that we have 300+ journals where you can publish your full length manuscript at discounted price. If you are interested please contact 

 

beneficialmicrobes@annualamericacongress.com for further details.

 

Our pleasure to meet you in upcoming event…!!!

Why to Attend

Our Conference will provide a perfect platform addressing:

•          Laudable talks by the top-notch of the global scientific community

•          Sterling workshop sessions

•          Remarkable Awards and Global Recognition to meritorious Researchers

•          Global Networking with 50+ Countries

•         free for abstract publication in the journal


For more information drop a mail on  beneficialmicrobes@annualamericacongress.com

 

Call for Abstract

8th International conference on Microbes and Beneficial Microbes, will be organized around the theme “Milestone Technologies of Beneficial Microbes for human and animal health”

 

8th International conference on Microbes and Beneficial Microbes is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in BENEFICIAL MICROBES 2024

Submit your abstract: https://beneficialmicrobes.conferenceseries.com/abstract-submission.php

 

Speaker Guidelines

Conference Series Conferences, the largest Open Access Publisher and Scientific Events Organizer, publishing more than 400 Open Access journals and organizing more than 300 scientific events per year offers membership to students.

 

8th International conference on Microbes and Beneficial Microbes Committee would like to invite speakers to submit their research for inclusion in the Beneficial Microbes 2024 scientific program.

 

Abstract Submission Details

We warmly invite you to submit your abstract and attend the 8th International conference on Microbes and Beneficial Microbes .

Submit your abstract online at Speaker abstract(or)

 

Email to: beneficialmicrobes@annualamericacongress.com

Terms

Abstracts must be submitted on the understanding that they have not been presented elsewhere (except in the form of a thesis) and are not currently under consideration by another conference. The submitting speaker should ensure that the abstract publication has been approved by all other co-authors.

 

Modes of Presentation

Oral presentation

Poster presentation

Video presentation

workshop

Language

All abstracts must be written exclusively in English (including the title, abstract text, author names and affiliations).

 

Correspondence

Please provide the following:

 

Presenting author’s contact details including full mailing address, office phone number, email address and fax number

 

Name(s) of presenting author and co-authors: first name(s) or initials of first name(s), family name (e.g. Jason Wong or J. Wong)

 

Affiliation details of all authors: Department, institution/hospital, city, state (if relevant), country

 

SESSSIONS AND TRACKS:

Track: 01: Probiotics & Prebiotics

Probiotics are contained with a range of food and nutrition products such as dietary supplements, medicinal foods, biopharmaceuticals and medical devices delivering probiotics. Prebiotics foods are taken as dietary ingredients to maintain the Biological Symbiosis with the microbial flora. Dietary supplements created through the synergism of Pro and Pre-biotic are the Synbiotics. The nutrition supplemented with the beneficial microbial flora and the associated microbiome in human gut, restoring the human digestive system as a whole is said to be the “Probiotics”.

Synbiotics

Pediatric Nutrition

Probioceuticals​

Probiotics for Women Health

Probiotics and Recombinant Probiotics

Non-LAB Probiotics – Bifidobacteria, Yeasts, Bacilli

Future of Probiotics and Prebiotics – Visions and Opportunities

Track:02: Agriculture Microbiology

Agricultural microbiology which is the most important field of Microbiology for the economic and medical importance it holds. This field explores various aspects like the genetics, physiology, molecular biology, virulence & pathogenicity and other aspects of the plant microbes. It deals with the infectious agents of the microbes, improvements and resistance of the agricultural crops, economic importance and the beneficial aspects of the normal agricultural flora. A complete study and understanding is crucial in application of the microbes for augmentation of soil nutrients, which is increasing the resistance of plants against the plant pathogen, for understanding the interaction a microbe has with the plant, and crop robustness.

Food microbiology

Bio-fertilizer Production

Fermentation technology

Soil and Applied Microbiology

Use of microorganisms to the soil fertility.

Microorganisms to control illnesses and pests.

Track: 03: Beneficial Microbes in the environment: Climate change is unarguably a critical existential threat to humanity in the 21st century. As the most abundant organisms on Earth, microorganisms make considerable contributions to and are greatly affected by a changing climate. Microbes are major drivers of elemental cycles (such are carbon, nitrogen, and phosphorus), important producers and consumers of greenhouse gases, and pertinent pathogens of humans, animals, and plants. While the threat of climate change looms large, conversations about the relationship between it and microorganisms are still rare outside of the microbial sciences community. To understand fully how our climate may change in the future, it is important to learn how a changing climate will impact microbes and their relationships with humans and their environment, as well as incorporate microbial processes into climate models.

Track: 04: Pathogenic Microbes  in Immunology and Microbiology: Pathogenic microbes contain certain abilities to cause infections or diseases in hosts during interactions. Virulence factors aggravate the defense mechanisms of the host to establish infections. The nature and type of virulence factors determine the pathogenicity of microorganisms. the several varieties of virulence mechanisms developed by the microorganisms (fungi, bacteria, and virus) which comprise virulence factors or genes. These virulence factors can be enzymes, toxins, lipids, flagella, exopolysaccharides, quorum sensing, etc. Signaling plays a very important role in pathogenicity which triggers the conformational change of receptors for ligands to reduce or activate the mechanisms. The pathogens such as bacteria and fungus express different sets of virulence genes and transcription factors during infections. The regulation of virulence factors followed the two prime regulatory mechanisms which includes sigma factors and two-component regulatory systems. Microbial-system-assisted virulence factors can be elucidated at cellular and molecular levels and are useful to develop strategies against microbe-mediated pathogenesis.

Track: 05: Pathogenic Microbes  in Medicine and Dentistry

The mouth is colonized by 200 to 300 bacterial species, but only a limited number of these species participate in dental decay (caries) or periodontal disease. Dental caries is attributed to the predominance of cariogenic microorganisms. Cariogenic microorganisms are pathological factors leading to acidification of the oral microenvironment. Periodontal infections are usually mixed, most often involving anaerobes such as Treponema denticola and Porphyromonas gingivalis. The microaerophile Actinobacillus actinomycetemcomitans causes a rare form known as localized juvenile periodontitis.

Plaque bacteria elaborate various compounds (H2S, NH3, amines, toxins, enzymes, antigens, etc.) that elicit an inflammatory response that is protective but also is responsible for loss of periodontal tissue, pocket formation, and loosening and loss of teeth.

Track: 06: Immunobiotics

The term “Immunobiotics” has been proposed to define microbial strains able to beneficially regulate the mucosal immune system. Over the past few years, we have witnessed the emergence of robust development in the application of immunobiotics to combat infections, and researchers have found that the use of beneficial microbes is an interesting alternative to prevent and reduce the severity of infections in humans and animals. The effect of immunobiotics on the gut innate and adaptive immune responses to enteric pathogens has been recognized conclusively the influence of immunobiotics on the immune responses in distal mucosal sites and its impact in the outcome of respiratory infections has recently been exposed.

Pathogens

Beneficial microbes

Immunobiotic strains

Influenza virus infection

Track: 06: Immunobiotics

The term “Immunobiotics” has been proposed to define microbial strains able to beneficially regulate the mucosal immune system. Over the past few years, we have witnessed the emergence of robust development in the application of immunobiotics to combat infections, and researchers have found that the use of beneficial microbes is an interesting alternative to prevent and reduce the severity of infections in humans and animals. The effect of immunobiotics on the gut innate and adaptive immune responses to enteric pathogens has been recognized conclusively the influence of immunobiotics on the immune responses in distal mucosal sites and its impact in the outcome of respiratory infections has recently been exposed.

 

Pathogens

Beneficial microbes

Immunobiotic strains

Influenza virus infection

Track: 07: Microbiome

A microbiome is the community of microorganisms such as bacteria, archaea, fungi, as well as viruses that inhabit an ecosystem or organism. Microorganisms dominate all other life everywhere scientists have looked, including the human body, the Earth’s soils and sediments, the oceans and fresh waterways, the atmosphere and even extreme environments such as hydrothermal vents and subglacial lakes. Scientists also use the term microbiome to refer to all these genes associated with those life forms.

 

The Earth Microbiome

The Ocean Microbiome

The Animal Microbiome

Modulation of Microbiota

The Human Microbiome

The Atmospheric Microbiome

 

Track: 08: Marine Microbiology

Marine microbiology is the study of microorganisms and non-organismic microbes that exist in saltwater environments, including the open ocean, coastal waters, estuaries, on marine surfaces and in sediments. Aquatic microbiology is the science that deals with microscopic living organisms in fresh or salt water systems. Aquaculture & Marine Biotechnology helps to control the marine organisms and water borne organisms. It is a process which has to do with marine or underwater environment. Blue Biotechnology is used to protect the marine organisms from harmful diseases underwater. The control of seasonal production and reproduction in farm animals has become major research goals. The applications of biotechnology to fish farming and ornamental fish production are numerous and valuable in both economic (food production, aquarium trade) and environmental terms (conservation of natural biodiversity for endangered species and protection of natural biodiversity from escapee domesticated strains). With the growing demand for fish products, biotechnology can help in the development of high quality, economical produce, thereby reducing pressure on natural population.

 

Applications of Marine Biotechnology

Marine Microbiology and Biodiversity

Biotechnology applications to Aquaculture

Marine-based Drug Discovery and Development

Environmental Risk of Aquatic Organisms from Genetic Biotechnology

Track: 09: Ecology and Evolution of Microbe-Host Interactions

Microbes are typically surrounded by different strains and species with whom they compete for scarce nutrients and limited space. Given such challenging living conditions, microbes have evolved many phenotypes with which they can outcompete and displace their neighbours: secretions to harvest resources, loss of costly genes whose products can be obtained from others, stabbing and poisoning neighbouring cells, or colonising spaces while preventing others from doing so. These competitive phenotypes appear to be common, although evidence suggests that, over time, competition dies down locally, often leading to stable coexistence of genetically distinct lineages. Nevertheless, the selective forces acting on competition and the resulting evolutionary fates of the different players depend on ecological conditions in a way that is not yet well understood. Here, we highlight open questions and theoretical predictions of the long-term dynamics of competition that remain to be tested. Establishing a clearer understanding of microbial competition will allow us to better predict the behaviour of microbes, and to control and manipulate microbial communities for industrial, environmental, and medical purposes.

 

Social Evolution.

Bacteria Communities

Bacterial pathogenomics

Host–microbe interactions

Interference and Exploitative competition

Manipulation of host-cell pathways by bacterial pathogens

An ecological and evolutionary perspective on human–microbe mutualism and disease

 

Track: 10: Engineering Beneficial Microbes

Demands for food, animal feed, and feedstocks for bioenergy and biorefining applications, are increasing with population growth, urbanization and affluence. Low-input, sustainable, alternatives to petrochemical-derived fertilizers and pesticides are required to reduce input costs and maintain or increase yields, with potential biological solutions having an important role to play. Plant–microbe interactions span a wide range of relationships in which one or both of the organisms may have a beneficial, neutral or negative effect on the other partner. A relatively small number of beneficial plant–microbe interactions are well understood and already exploited; however, others remain understudied and represent an untapped reservoir for optimizing plant production. There may be near-term applications for bacterial strains as microbial biopesticides and biofertilizers to increase biomass yield from energy crops grown on land unsuitable for food production. Longer term aims involve the design of synthetic genetic circuits within and between the host and microbes to optimize plant production. A highly exciting prospect is that endosymbionts comprise a unique resource of reduced complexity microbial genomes with adaptive traits of great interest for a wide variety of applications.

 

Energy and microbes

Bacterial endophyte

Food and microbial engineering

Genetic engineering of microbes

Metabolic engineering and synthetic biology

Biomedical engineering and microbiological researches

 

Track: 11: Soil biological management

Soil microorganisms are the most abundant of all the biota in soil and responsible for driving nutrient and organic matter cycling, soil fertility, soil restoration, plant health and ecosystem primary production. Beneficial microorganisms include those that create symbiotic associations with plant roots (rhizobia, mycorrhizal fungi, actinomycetes, diazotrophic bacteria), promote nutrient mineralization and availability, produce plant growth hormones, and are antagonists of plant pests, parasites or diseases (biocontrol agents). Many of these organisms are already naturally present in the soil, although in some situations it may be beneficial to increase their populations by either inoculation or by applying various agricultural management

 

 

To Collaborate Scientific Professionals around the World

Conference Date June 20-21, 2024

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Speaker Opportunity

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All accepted abstracts will be published in respective Conference Series International Journals.

Abstracts will be provided with Digital Object Identifier by