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Conference Series LLC LTD invites the contributors across the globe to participate in the premiere of Annual Biotechnology Congress” (Annual Biotechnology 2018), to discuss the theme: “Deep Insight of Tomorrow’s Biotech Trends”. The conference will be held on July 23-24, 2018 Vancouver, Canada wherein prompt keynote presentations, Oral talks, Poster presentations and Exhibitions are included.

International conference on Annual Biotechnology is a Research-scientific knowledge bridge that aims bring together multi-disciplinary luminaries for Thriving innovation in the Biotechnology. The scientific conferences have been carefully structured so as to share knowledge and thoughts through presentations and exhibitions. Annual Biotechnology sessions cover all aspects of biotech Biopharmaceutical Engineering, Biomass and Bioenergy, Bioscience, Biobanking, Molecular Diagnostics, Recombinant Gene Technology, Tissue Engineering and Regenerative Medicine, Algal Biotechnology, Marine Biotechnology, Food Processing and Technology addresses the key issues of Biotechnology. Attendees can look forward to hearing about the different strategies taken to improve on-going research and decipher how to overcome technical limitations in research development. This conference is where pharma and Life Science companies find partners, access innovation, find funding and brainstorm the solutions to further their business needs.

Importance and scope:
Biotechnology is a multi-disciplinary subject which use of living organisms and Engineering principles to develop or make products, or “any technological application that uses biological systems, living organisms, or derivatives thereof, to make or modify products or processes for specific use” (UN Convention on Biological Diversity, Art. 2). Biotechnology has applications in industrial areas, including health care (medical), Biopharmaceutical industries, crop production and agriculture, non-food (industrial) uses of crops and other products (e.g. vegetable oil, biofuels), and environmental uses. Growing demand for food for increasing population, ever increasing vaccination demand for people with affordable cost, solving inherited genetic diseases, to decrease global temperature by using bio-fertilizers which non-emitting GHGs, leading lives of the people with better life, can be achieved with the help of biotechnology. So the scope of biotechnology is very wide and it touches every walk of life. By considering potentiality of growing technology in down-stream and up-stream processing in biopharma, genetic engineering, Tissue and protein engineering, fermentation technology and relevant fields, the sharing of thoughts and brainstorming is necessary for contemporary developments in biotechnology research.  

Target Audience:

Target Audience for Annual Biotechnology will be personnel from both industrial and academic fields which include; Directors/Managers, Head of Departmental, Presidents/Vice Presidents, CEO, Professors, Associate and Assistant professors, Research Scholars and students from the related fields.

Target Audience

Industry        40%

Academia     50%

Others          10%

Sessions and Tracks

Biopharmaceutical Engineering

The pharmaceutical biotechnology information database is respectably essential iotas made through experimentation technique for treating the signs and symptoms of an infirmity or sickness, on the other hand, biopharmaceuticals are capricious, not unusual debris, robotically referred to as proteins that normally run for shedding the hidden frameworks for treating infections. The critical pharmaceutical biotechnology matters which are made through the biotechnological pharmaceutical associations fuse antibodies, proteins, and recombinant DNA products.

• Biomedical engineering
• Pharmacology
• Chemical Engineering

Biomass and Bioenergy

One-of-a-kind varieties of biomass have been used as carbon assets within the microbial cultivations underneath submerged and strong-country fermentation. The translation of the soil microbial biomass is the living parts of the soil organic depend, with the exception of plant roots and soil animals bigger than 5×10-three um³. The microbial biomass typically comprises about 2% of the whole natural count in soil and it could be successfully disregarded as of significance inside the soil. Biomass is used by food processing industries, animal feed enterprises and wooden merchandise industries, which incorporates creation and fiber merchandise (paper and derivatives), along with chemical merchandise crafted from those industries that have numerous programs inclusive of detergents, bio-fertilizers, and erosion managing merchandise. The largest possibility for the worldwide bioenergy era is the increasing demand for strength internationally.

• Micro Algal Biomass
• Molasses
• Bacterial Biomass

Bioscience

Biosciences are an association of connected sciences making use of various aspects of everyday technology or formal technology, or both, to create knowledge, intercessions, or innovations which are useful in medicinal services or open fitness. The biomedical sciences are made from the accompanying controls; natural chemistry, hematology, immunology, microbiology, histology, cytology and transfusion administrations.

• Bioacoustics
• Biophysics
• Biotherapy
• BioenergeticsBiobanking

Biobanks anticipate a critical part of biomedical studies. The huge show off of biospecimens (counting blood, spit plasma and purged DNA) kept up in biobanks may be depicted as libraries of the human dwelling being. Biobanks index examples making use of genetics and one of the kind traits, as an example, age, sexual orientation, blood classification, and ethnicity. A few specimens are likewise arranged by way of ecological variables, for example, regardless of whether the giver had been supplied to radiation, asbestos, or some other substance which could have an effect on human characteristics.  

• Tissue Preservation
• Fertility Bio banks
• Stemcell Banking
• In vitro fertilization

Molecular Diagnostics

Molecular diagnostics is leading disruptive innovations in healthcare by means of the introduction of multiple equipments which are creating a profound impact on healthcare shipping for those consist of next-generation sequencing, wearable sensors, liquid biopsies, direct-to-purchaser checking out, point-of-care assays, and early cancer detection.

Recombinant Gene Technology

Recombinant DNA generation, becoming a member of together of DNA molecules from exceptional species which might be inserted into a number organism to supply new genetic mixtures which are of cost to science, medicine, agriculture, and industry. considering that the point of interest of all genetics is the gene, the fundamental aim of laboratory geneticists is to isolate, represent, and manage genes. Even though it is distinctly smooth to isolate a pattern of DNA from a set of cells, locating a particular gene inside this DNA sample can be as compared to locating a needle in a haystack. 

• Molecular Cloning
• Polymerase chain reaction
• Vector DNA
• Recombinant DNA Technology

Tissue Engineering and Regenerative Medicine:

Tissue Engineering is the utilization of a combination of cells, designing and substances strategies, and suitable biochemical and physicochemical variables to decorate or supplant organic tissues. It consists of the utilization of a platform for the improvement of recent affordable tissue for a medicinal reason whilst it changes into once sorted as a sub-area of biomaterials, having evolved in diploma and importance it may be taken into consideration as a discipline on its own.

Nanomedicine is one of the restorative uses of nanotechnology. It stages from the restorative uses of nanomaterials to Nano electronic biosensors, and the destiny uses of sub-atomic nanotechnology, for instance, organic machines. Functionalities may be brought to nanomaterials via interfacing them with herbal atoms or systems. The volume of nanomaterials is like that of most organic atoms and systems; accordingly, nanomaterials can be helpful for both in vivo and in vitro biomedical studies and programs.

• Drug delivery in cancer treatment
• Nanomedicine for Cardiovascular Diseases
• Nanomedicine for Gastrointestinal Tract (GI) Diseases
• Future aspects of Nanomedicine

Industrial and Microbial Biotechnology

Microbial Biotechnology involves the use of enzymes and micro-organisms to make biological based merchandise in sectors such as chemical substances, food, feed, detergents, paper and pulp, textiles and bioenergy (which includes biofuels or biogas). In doing so, it uses the renewable raw substances and is one of the most promising, innovative procedures towards decreasing greenhouse fuel emissions. The utility of industrial biotechnology has been tested to make considerable contributions towards mitigating the effects of climate trade in these and different sectors.

•  Biopolymers and bio-actives
•  Molecular microbiology and its applications
•  Synthesis and applications of bio plastics
•  Enhancing microbe performance, selecting feedstocks, and piloting

Agricultural and Environment Biotechnology

Environmental biotechnology may be associated with the implementation of action when one tries to harness biological process for commercial uses and exploitation. The International Society for Environmental Biotechnology defines environmental biotechnology as “the development, use, and regulation of biological systems for remediation of contaminated environments (land, air, water), and for environment-friendly processes (green manufacturing technologies and sustainable development).

Transgenic plants and crops
Molecular farming and applications
Translational genomics and genomics-assisted breeding
Bioavailability, chemotaxis, and transport of organic pollutants
Bioremediation & biodegradation

CRISPR

Genome editing and the utilization of CRISPR primarily based technologies are expected to revolutionize the assembly of the next generation of bio products. DCB12 can focus on the most recent developments within the use of CRISPR/Cas9 and alternative CRISPR primarily based technologies in reference to the development and production of biopharmaceuticals, bio chemicals, agricultural crops, and travel applications.

CRISPR is an abbreviation of Clustered Regularly Interspaced Short Palindromic Repeats. The name was minted at a time when the origin and use of the interspacing subsequences were not known. At that time the CRISPRs were described as segments of prokaryotic DNA containing short, repetitive base sequences. In a palindromic repeat, the sequence of nucleotides is the same in both directions. Each repetition is followed by short segments of spacer DNA from previous exposures to foreign DNA (e.g., a virus or plasmid). Small clusters of cas (CRISPR-associated system) genes are located next to CRISPR sequences.

• Genome engineering
• RNA editing
• Disease models
• Gene drive
• Biomedicine
• Gene function

Food Processing and Technology

Food processing is the transformation of raw ingredients, by physical or chemical means into food, or of food into other forms. Food processing combines raw food ingredients to produce marketable food products that can be easily prepared and served by the consumer. Food processing typically involves activities such as mincing and macerating, liquefaction, emulsification, and cooking (such as boiling, broiling, frying, or grilling); pickling, pasteurization, and many other kinds of preservation; and canning or another packaging.

• Fermentation Technology
• Thermal and non-thermal Processing
• New trends in food packaging
• Post-Harvest Processing

Marine Biotechnology

Marine biotechnology is the procedure that includes the marine assets of the world that are contemplated in biotechnology applications. Its applications are used in various assignments, for example, getting new tumor medications from marine living beings to ocean growth cultivating. As new pharmaceutical organizations concentrate on growing new medications from marine organisms, professionals are trained in the disciplines of microbiology, science, genomics, bioinformatics, and related fields. Marine biotechnology centers not just around minimal known types of deep ocean life additionally on the developing utilization of marine life in the food, cosmetics, and agricultural enterprises, for example, aquaculture.

• Oceanography
• Marine biomolecules
• Aquatic toxicology
• Aquatic microbial ecology

Bioinformatics

Bioinformatics refers to the computational ways of analysis, examination, overseeing, and storage of natural information. Bioinformatics includes the examination of organic data utilizing PCs and measurable systems, the exploration of creating and using PC databases and calculations to quicken and improve natural research. Bioinformatics is utilized as a part of breaking down genomes, proteomes (protein arrangements), three-dimensional demonstration of biomolecules and biologic systems etc.

• Immuno- and chemo-informatics
• Glyco bioinformatics
• Signal processing
• Functional & structural genomics
• Sequence alignment

Market Analysis

 Technology Outlook (Revenue, USD Billion; 2014 – 2025)

•   DNA Sequencing
•   Nanobiotechnology
•   Tissue engineering and Regeneration
•   Fermentation
•   Cell-Based Assay
•   PCR Technology
•   Chromatography Market
•   Others

Application Outlook (Revenue, USD Billion; 2014 – 2025)

• Health
• Food & Agriculture
• Natural Resources & Environment
• Industrial Processing
• Bioinformatics
• Others

Regional Outlook (Revenue, USD Billion; 2014 – 2025)

North America

• U.S.
• Canada

Europe

• Germany
• UK

Asia Pacific

• Japan
• China

Latin America

• Brazil

Middle East and Africa (MEA)

• South Africa

Conference Series Ltd conferences, “International Conference on Plant Physiology and Biotechnology” during May 13-14, 2019 in Nice, France aims to bring together leading academic scientists, researchers, specialists and research scholars to exchange and share their experiences and research results on all aspects of Plant Physiology and Biotechnology. It also provides a premier interdisciplinary platform for researchers, practitioners and educators to present and discuss trends, the most recent innovations, and concerns as well as practical challenges encountered and solutions adopted in the fields of Plant Science, Plant Physiology and Biotechnology.

Conference Series Ltd aims are to engage new audiences to participate in activities on the day Plant Physiology 2019. Of course, we also want to reach existing followers of plant physiology social media accounts, and to expand the global reach. Finally, this will be a great opportunity to explore as new science communication tool. We are now looking for people to contribute, and to help us make plants ‘go viral’!

Target audience

• Agricultural Universities
• Plant Science Faculty
• Plant Science Researchers
• Directors, Board Members, Presidents, Vice Presidents, Deans and Head of the Departments
• Business Entrepreneurs
• Forest Science
• Horticulture and Landscaping
• Manufacturing Agricultural Devices Companies
• Medicinal and Aromatic Plant Sciences
• Plant Science and Agriculture Associations and Societies
• Plant Science / Agricultural Students, Scientists
• R&D Laboratories
• Seed Science and Technology
• Soil science and soil-plant nutrition
• Training Institutes
• Drug Manufacturing Companies and Industries
• All the Stake Holders (both Academia & Industry) of the Sector
• Researchers & Innovators
• Experts Looking for Collaborative Work
• Product Developers
• Solution Providers
• Sales & Marketing Professionals
• Associations, Societies, & Professional Bodies
• Funding Agencies & Fund Raisers
• Management Bodies
• Decision Makers

Sessions and Tracks

Track 1: Plant Science and Plant Research

 Plant Science or all the more suitably alluded to as organic science, is the part of natural science that includes investigation of the morphology, life systems, scientific categorization and physiology of plants. It likewise incorporates study and investigation of sub-atomic parts of plant metabolic pathways, and the environmental connections existing between different plants. Furthermore, plant sciences likewise incorporate the investigation of fundamental ideas and connected parts of exploratory plant science, genomics, proteomics, plant natural chemistry, cell science, developmental science, useful plant rearing and frameworks science. The ebb and flow patterns and future prospects of plant science examine envelop the advancement of illness safe plants through plant biotechnological developments.

Track 2: Plants Genetics and Genomics

Plant genetics is the investigation of qualities, hereditary variety, and heredity particularly in Plants. It is for the most part thought about a field of science and herbal science, however converges oftentimes with numerous other life sciences and is emphatically connected with the investigation of data frameworks. Plant genetics is comparable from numerous points of view to creature genetics however varies in a couple of key regions.

Plant genomics is an inexorably imperative territory of science that has extended as of late because of the improvement of trend setting innovations and strategies. A comprehension of plant genomics is an essential for cutting edge plant rearing and yield enhancement. A top to bottom information of plant genomics causes analysts to upgrade generation, present opposition or resistance to antagonistic conditions and enhance crops. The ongoing advances in plant genomics and bioinformatics significantly affected plant science and hereditary qualities. New techniques and innovation have prompted a more prominent comprehension of both basic genomics and utilitarian genomics. Plant genomics produces chances to make crops with enhanced characteristics.

Track 3: Plant Anatomy and Morphology

Plant anatomy is that the study of the form, structure, and size of plants. As part of phytology (the study of plants), plant anatomy focuses on the structural or body elements and systems that structure a plant. A typical plant body consists of 3 major vegetative organs: the foundation, the stem, and therefore the leaf, furthermore as a group of generative elements that embrace flowers, fruits, and seeds.

Plant Morphology “represents a study of the development, form, and structure of plants, and, by implication, an attempt to interpret these on the basis of similarity of plan and origin.” There are four major areas of investigation in plant morphology, and each overlaps with another field of the biological sciences.

First of all, morphology is comparative, meaning that the morphologist examines structures in many different plants of the same or different species, then draws comparisons and formulates ideas about similarities. When structures in different species are believed to exist and develop as a result of common, inherited genetic pathways, those structures are termed homologous.

Track 4: Plant and Environment

A standout amongst the most critical commitments of plants to the earth is the generation of Oxygen (O2) and retention of Carbon dioxide (CO2) from the environment because of Photosynthesis. This is the essential procedure for plants life.In any case, plants additionally influence and change their surroundings making them more reasonable for living.

Track 5: Plant Hormones

Plant hormones are signal molecules made among plants that occur in extraordinarily low concentrations. Plant hormones management all aspects of growth and development, from embryogenesis, the regulation of organ size, microorganism defence, stress tolerance and thru to generative development. Unlike in animals (in that endocrine production is restricted to specialised glands) every plant cell is capable of manufacturing hormones. The term “Plant hormones” was coined by Went and Thimann and utilized in the title of their book in 1937.

Plant hormones are found across the kingdom Plantae, and even in protoctist, wherever they need similar functions to those seen in higher plants. Some Plant hormones additionally occur in microorganisms, like living thing fungi and bacterium, but in these cases they are doing not play a secretion role and may higher be thought to be secondary metabolites.

Track 6: Plant Pathology and Mycology

Plant Pathology is outlined because the study of the organisms and environmental conditions that cause unwellness in plants, the mechanisms by that this happens, the interactions between these causative agents and also the plant (effects on plant growth, yield and quality) and also the strategies of managing or dominant disease.

Mycology is that the branch of biology that deals with the study of fungi. It includes the analysis of their genetic and organic chemistry properties, and their use in drugs and food together with their hazards. The term mycology may be a concoction of the Greek words mukēs, which means flora, and logia, which means study.

Track 7: Plant Biotechnology

Plant biotechnology may be a set of techniques accustomed adapt plants for specific desires or opportunities. Situations that mix multiple desires and opportunities are common. For example, one crop is also needed to supply property food and healthful nutrition, protection of the surroundings, and opportunities for jobs and financial gain. Finding or developing appropriate plants is usually an extremely advanced challenge.
Plant biotechnologies that assist in developing new varieties and traits embody genetic science and genetics, marker-assisted choice (MAS), and transgenic (genetic engineered) crops. These biotechnologies enable researchers to find and map genes, discover their functions, choose for specific genes in genetic resources and breeding, and transfer genes for specific traits into plants wherever they’re required. NIFA funds analysis, training, and extension for developing and exploitation biotechnologies for food and agriculture.

Track 8: Plant Metabolic Engineering

Metabolic engineering is the use of genetic engineering to optimize the metabolism of an organism. It involves the introduction of new or recombinant genes or genetic circuits into host cell genomes in order to optimize or introduce new metabolic pathways. It can involve the optimization of existing biochemical pathways or the introduction of new pathway components, most commonly in bacteria, yeast or plants, with the goal of high-yield production of specific metabolites for medicine or biotechnology. Metabolic engineering is essentially utilizes E. coli or other approachable microorganisms into efficient “factories”, optimized to produce a desired biomolecule with higher yield and purity than non-genetically engineered organisms.

Track 9: Plant Nutrition and Soil Science

Plant Nutrition and Soil Science is the investigation of the capacities and elements of supplements in plants, soils and biological systems and of plant generation forms with the objective to enhance the development of plants to build the nature of reap items, to enhance soil richness, to advance the reusing of supplements, to diminish the cost of assets, to limit treatment – related ecological effects.

Track 10: Plant Ecology and Taxonomy

Plant ecology is a sub discipline of ecology which studies the distribution and abundance of plants, the effects of environmental factors upon the abundance of plants, and the interactions among and between plants and other organisms. Examples of these are the distribution of temperate deciduous forests in North America, the effects of drought or flooding upon plant survival, and competition among desert plants for water, or effects of herds of grazing animals upon the composition of grasslands.

Plant taxonomy is the science that finds, identifies, describes, classifies, and names plants. Plant taxonomy is closely allied to plant systematics, and there is no sharp boundary between the two. In practice, “Plant systematics” involves relationships between plants and their evolution, especially at the higher levels, whereas “plant taxonomy” deals with the actual handling of plant specimens. The precise relationship between taxonomy and systematics, however, has changed along with the goals and methods employed. Plant taxonomy is well known for being turbulent, and traditionally not having any close agreement on circumscription and placement of taxa.

Track 11: Plant Biology

The science of plants contrasts with creatures, their indications and reactions are very extraordinary. At times, a plant can essentially shed tainted leaves or blooms to keep the spread of malady, in a procedure called abscission. Most creatures don’t have this choice as a method for controlling disease. Plant maladies creatures themselves additionally contrast from those causing disease in creatures since plants can’t generally spread disease through easygoing physical contact. Plant pathogens tend to spread through spores or are conveyed by creature vectors.

Track 12: Plant Diseases and Bryology

A Plant disease takes place when an organism infects a plant and disrupts its normal growth habits. Symptoms can range from slight discoloration to death. Diseases have many causes including fungi, bacteria, viruses, and nematodes. Below are 10 of the most common diseases affecting ornamental trees and shrubs.

Track 13:Plant Physiology and Biochemistry

The Study of plant morphology, development, and multiplication in living plants and furthermore worried about the plant morphology and some fundamental procedure, for example, photosynthesis, respiration, plant nourishment, plant hormone functions, tropisms, nastic developments, photograph morphogenesis, natural physiology (plant sicknesses), seed germination, torpidity and stomata capacity and transpiration, plant water relations. Plant biochemistry is related to molecular science such as macromolecules and plant metabolisms, Biomolecules, carbohydrates, amoni acid, lipids.

Track 14:Molecular Biology

Plant molecular biology explores the role of certain cells, their function in plant life and methods to alter those cells to greater effect. Some of the most common traits studied are reactions to various stresses, resistance to common disease and minerals contained within the plant. With training in plant molecular biology, especially at the graduate level, graduates can explore diverse careers in agriculture, micro- and molecular biology, biochemistry, ecology and teaching.

Track 15: Plant Bioinformatics:

Bioinformatics has become an important part of many areas of biology. In experimental molecular biology, bioinformatics techniques such as image and signal processing allow extraction of useful results from large amounts of raw data. In the field of genetics and genomics, it aids in sequencing and annotating genomes and their observed mutations. It plays a role in the text mining of biological literature and the development of biological and gene ontologies to organize and query biological data. It also plays a role in the analysis of gene and protein expression and regulation. Bioinformatics tools aid in the comparison of genetic and genomic data and more generally in the understanding of evolutionary aspects of molecular biology. At a more integrative level, it helps analyse and catalogue the biological pathways and networks that are an important part of systems biology. In structural biology, it aids in the simulation and modeling of DNA, RNA, proteins as well as bio molecular interactions.

Target audience

The key intention of ICEABT  is to provide opportunity for the global participants to share their ideas and experience in person with their peers expected to join from different parts on the world. In addition this gathering will help the delegates to establish research or business relations as well as to find international linkage for future collaborations in their career path. We hope that ICEABT  outcome will lead to significant contributions to the knowledge base in these up-to-date scientific fields in scope.