Theme:
Cellular Biology-2022
We welcome all the attendees to the 3rd Experts meeting on Plant, Cellular and Molecular Biology which will be held on November 15-16, 2022 at Budapest, Hungary. Cellular Biology-2022 conference based on the theme “Advance Innovations in Plant Science for the Development of Modern Medicine”. Cellular Biology-2022 provides an exceptional opportunity for the participants or delegates with their relative backgrounds to share their research ideas and to learn from other colleagues and co-partners about the modern scientific improvements and innovation in the field of Plants and its research. Our main objective is to empower the appealing research field along with the need for commercialization by giving a chance to come across the specialists and Business entrepreneurs in the field of Plant Science.
Cellular biology 2022 offers you a notable space opportunity to present and evaluate the latest update with a complete approach to different areas of attention. Cellular biology is Interdisciplinary research, Reaching from Agricultural Science to Paleobaotany and Molecular botany to Physiology.
Why Cellular biology -2022?
Cellular Biology is the platform to come across for interaction with participants from the Cellular Biology associations, enthusiast leaders world’s top research scholars for interaction with participants from the Cellular Biology associations, Cellular Biology societies, Horticulture, Forestry, Agriculture, Agronomy, soil sciences and plant sciences Academicians. It provides sharing and learning about the latest research on plant research and other relevant to plant science, as well as for launching new applications and technologies and the effectiveness of various regulatory programs on plant management towards Cellular Biology-2021 Conduct presentations, share knowledge, meet with current potential and eminent scientists, and receive name recognition at this two days event.
Our aim is to aggregate community and to create a platform for an exchange of information on technological developments, new scientific innovations and the effectiveness of various regulatory programs towards Cellular Biology-2021. It provides a premier technical forum for expressing and learning about the advanced research and developments, as well as for launching new applications, technologies and to explore new trends in the field of plant science
This conference will play a crucial role which allows the latest techniques and modern methodology in the field of Cellular Biology and it covers all the major topics that come across like Plant Science, Plant Research, Plant Biotechnology, Plant Nanotechnology, Plant Disease and Bryology, Plant Pathology, Mycology, Anatomy, and Morphology, Plant Hormones, Plant Tissue culture, Plant Genetics etc. in different fields.
Our final agenda will focus on the scientific sessions, plenary lectures, panel discussion, meetings pertaining to recent advancements and emerging methodologies which make our event a grand success.
Target audiences:
· Directors and CEOs of research-based firms
· Manufacturing Agricultural Device Companies.
· Plant researchers.
· Botanists and Paleobotanist
· R & D Companies.
· Plant and agricultural Associations societies.
· Medicinal and Aromatic Plant Science.
· Business entrepreneurs in Agriculture and Plant Science.
· Horticulture and Landscaping.
· Biochemists and Biotechnologists
1. Plant Sciences and Research
Plant Science, Plant Biology, Botany or Phytology, is the science of plant life and branch of Biology. Botany has also included the study of Fungi and Algae by mycologists and phycologists. In basics, Plant Science is the study of plants in all their forms and interactions using a scientific approach. Plant Science originated as herbalism. Botany or the study of Plants, Developed as science and Investigations on the taxonomy, anatomy, morphology, physiology and ecology of plants were institutionalized as fields of advanced study at institutions of higher learning. The areas of plant study that placed major emphasis on the use of plants by humans or as agricultural products became known as the plant sciences. The plant and forestry, and specialized cross commodity fields such as agronomy, horticulture, entomology, integrated pest management.
Throughout human history, plants have been the object of universal and at times dominant artistic and intellectual interest. Plants were important subjects from the most primitive study of life processes, and they were central to scientific study in the nineteenth and early twentieth centuries. Worthy reasons remain to study the basic life processes of plants. Research on plants enhances our intellectual life and adds to our knowledge about other life processes. The results of Plant research systems also can demonstrate us how to approach problems in agriculture, health, and the environment.
- Abiotic Stress Tolerance Mechanism
- Plants in Agriculture, Medicine, and Industry
- Plants and the Origin of Modern Biology.
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
2. Molecular Biology and Biochemistry of Plants
Plant Molecular Biology is the exploration of the sub-molecular basis of vegetation. It is especially worried about the procedures by which the data encoded in the genome is showed as structures, procedures and practices.
Plant Biochemistry is the term used for the chemical processes used by plants. Some of these processes are used in their primary metabolism like the photosynthetic Calvin cycle and Crassulacean acid metabolism. Others make specialized materials like the cellulose and lignin used to build their bodies, secondary products like resins and aroma. Plant Biochemistry is not only an important arena of basic science explaining the molecular function of a plant, but is also an applied science that is in the position to contribute to the solution of agricultural and pharmaceutical problems. By controlling information flow through biochemical signalling and the flow of chemical energy through metabolism, biochemical procedures give rise to the complexity of life. Today, the main focus of Plant Biochemistry is in understanding how biological molecules give rise to the processes that occur inside living cells, which in turn relates greatly to the study and understanding of whole organisms.
- Biotic and Abiotic stress in plants
- Photo- Morphogenesis &Photo-periodic
- Plant Hormones & Nutrition
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
3. Plant Biotechnology
Plant biotechnology is a set of techniques used to adapt plants for specific needs or opportunities. Situations that combine multiple needs and opportunities are common. For example, a single crop may be required to provide sustainable food and healthful nutrition, protection of the environment, and opportunities for jobs and income. Finding or developing suitable plants is typically a highly complex challenge.
- Biotechnologies for Food and Agriculture
- Synthetic Biology
- Molecular Assays
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
4. Plant Nanotechnology
The field of nanotechnology has countless potential within plant sciences and plant production systems. The agronomic application of nanotechnology in plants (phytonanotechnology) has the potential to alter conventional plant production systems, allowing for the controlled release of agrochemicals (e.g., fertilizers, pesticides, and herbicides) and target-specific distribution of biomolecules (e.g., nucleotides, proteins, and activators). An improved understanding of the interactions between nanoparticles (NPs) and plant responses, including their uptake, localization, and activity, could revolutionize crop production through increased disease resistance, nutrient utilization, and crop yield. The application of nanotechnology in plant sciences will benefit from the development of improved analytical techniques that enable the in situ analysis of NPs in planta with a low detection limit and high lateral resolution. Regardless of the benefits of nanotechnology for plant sciences, the principle of ‘safety-by-design’ must be heeded to address community concerns about the potential adverse effects of novel engineered nanoparticles (ENPs) on ecological systems.
- Medicinal Plant Nanotechnology
- Nanotechnology Application in plant Tissue Culture
- Nanotechnology in Plant Nutrition
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
5. Plant Disease and Bryology
Plant Disease is an impedance of the typical condition of a plant that hinders or changes its fundamental capacities. All types of plants, wild and developed alike are liable to disease. Although each species is vulnerable to trademark diseases, these are, for each situation, moderately few in numbers. The event and predominance of plant diseases fluctuate from season to season, contingent upon the nearness of the pathogen, natural conditions, and the products and assortments developed. Some plant varieties are especially subject to periods of infections while others are more impervious to them. Despite the fact that plants have changed a considerable measure in the previous 450 million years, developing today in a gigantic assortment of shapes and sizes, they would all be able to be arranged into two requests, called tracheophytes and bryophytes. Tracheophytes are plants, similar to trees, blooming plants, and grasses that have a very much created vascular framework. Conversely, bryophytes are little plants that develop near one another and don't have a vascular framework, which makes them fundamentally the same as those first plants that developed on Earth a great many years back. The investigation of these old plants is called bryology, and the researchers who think about them are called bryologists.
- DNA Sequencing
- Bioindicators And Interdependency of Bryophytes
- Quarantine and Biological Integrated Methods
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
6. Plant Pathology and Mycology
Plant pathology is the scientific study of diseases in plants caused by pathogens (infectious organisms) and environmental conditions (physiological factors) and also known as Phytopathology. Plant pathology involves the study of pathogen identification, disease etiology, disease cycles, economic impact, plant disease epidemiology, plant disease resistance, how plant diseases affect humans and animals, pathosystem genetics, and management of plant diseases. Whereas Mycology is the branch of Biology concerned with the study of Fungi including their Biochemical and Genetic properties. It branches into the field of Phytopathology and is closely related to phytopathology because vast majority of plant pathogens are fungi.
- Viral Diseases in Plants
- Parasitic Plants
- Plant Pathogens
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
7. Plant Hormones
Plant Hormones are also termed as Phytohormones are signal molecules that regulate Plant processes produced within the plants that occurs in extremely low concentration. It controls all aspects of growth and development from the embryogenesis. The regulations of organ size, pathogen defence, stress tolerance through to reproductive development. Each plant hormone is capable for producing hormone. Plant hormones are also used in human use and salicylic acid and Jasmonic acid has been widely used in Pharmaceuticals Company.
There are so many plant hormones but the major plant hormones are five Hormones which includes Auxin, Cytokinin, Ethylene, Abscisic and Gibberellin. These hormones have different functions. Auxin promotes cell elongation; Cytokinin stimulates bud elongation in tissue culture; Ethylene leads to release in dormancy state and stimulates shoot and root growth along with differentiation; Abscisic acid stimulates closing of stomata and inhibit shoot growth and; Gibberellin present in meristems of apical buds and roots and embryo stimulates stem elongation and leads to the development of seedless fruit and delays senescence in leaves and citrus fruits.
- Plant Peptide Hormones
- Hormones and Plant Propagation
- Seed Dormancy
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
8. Phytochemical Analysis
With the development of natural product chemistry, the potential of chemotaxonomy is now becoming increasingly obvious. The application of chemical data to systematic has received serious attention of a large number of biochemists and botanists. Chemically constituents may be therapeutically active or inactive. Numerous phytochemical surveys have been carried on for detecting diverse groups of naturally occurring phytochemicals. This research approach is considered effective in discovering bioactive profile of plants of therapeutic importance. The phytochemicals and plant extracts advertise are sectioned based on kind of phytochemicals and plant removes, enterprises in which they are material and area astute markets. Phytochemicals play a vital role when used in cosmetic preparations as antimicrobial agents as well as antioxidants. Herbal based cosmetics have gained popularity due to technological advances in manufacturing processes. The application of investigated plant species in various cosmetics was based on their phytochemical content and their pharmacological activities.
- Plant Specimen and Collection
- Phytochemical Screening
- Anti-fungal, Anti-Bacterial and Anti-Inflammation Activities
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
9. Plant metabolic engineering
Metabolic engineering defined as ‘‘the improvement of cellular activities by manipulation of enzymatic, transport, and regulatory functions of the cell with the use of recombinant DNA technologies.’’ Today, the availability of the complete genome sequence for several plants, together with the development of powerful techniques for the transformation and stable or transient expression of genes in plants brings plant metabolic engineering as a strong alternative to classical chemical synthesis for the production of pharmaceuticals and other important industrial compounds. Plant metabolic engineering involves the manipulation of existing metabolic pathways by either increasing or diverting flux to desire or from undesired products, respectively, or the generation of chemical entities not normally found in the plant production system through the introduction of genes from other organisms. Essential elements in the toolbox of the metabolic engineer are mechanisms to eliminate or overexpress gene activity.
- Metabolic Flux Analysis
- Setting Up a Metabolic Pathway for Analysis
- Determining the Optimal Genetic Manipulations
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
10. Plant nutrition and soil science
Plant nutrition and soil science is the study of the functions and dynamics of nutrients in plants, soils and ecosystems as well as of plant production processes with the aim to improve the growth of plants to increase the quality of harvest products, to improve soil fertility, to promote the recycling of nutrients, to reduce the cost of resources, to minimize fertilization - related environmental impacts.
Plant Nutrients are the substance components that are fundamental to the sustenance of plant welfare. Plant Nutrients fall into three classes, which are all founded on the sum a plant needs, not the significance of the individual components. Each plant supplement plays out an energetic job in plant development and advancement.
Plants can get supplements from the manures, dirt, or through individual supplement application. For instance, to expand plant blooming and fruiting, one can utilize PK Boosters to give plants more phosphorus and potassium; the two of which are fundamental to organic fruit / flower development and improvement.
Soil is natural resource, soil science is the study of soil and soil classification and productiveness of the soil, its classification mainly based on soil morphology soils are distinguished by physical appearance and characteristics. Soil degradation is expanding all around the world, when crops are collected supplements are expelled out if they don’t supplants natural material after sometimes this decrease the soil quality thus leads to the lower water holding limit, less air, and it leads to the soil corruption.
- Agriculture Nano Toxicology
- Soil Erosion and soil management
- Soil Remediation
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
11. Plant Tissue Culture
Plant tissue culture is a collection and technique used to maintain or grow plant cells, tissue or organ under the sterilized condition on a nutrient culture medium under known composition of plant tissue culture is widely used to harvest clones of a plant in a method known as micro propagation. Endangered, threatened and rare species have successfully been grown and conserved by micro-propagation because of high coefficient of multiplication and small demands on number of initial plants and space.
Plant tissue culture is considered to be the most efficient technology for crop improvement by the production of somaclonal and gametoclonal variants. The micro propagation technology has a vast potential to produce plants of superior quality, isolation of useful variants in well-adapted high yielding genotypes with better disease resistance and stress tolerance capacities.
Certain kind of callus cultures give rise to clones that have inheritable characteristics different from those of parent plants due to the possibility of occurrence of somaclonal variability, which leads to the development of commercially important improved varieties. Commercial production of plants through micro propagation techniques has several advantages over the traditional methods of propagation through seed, cutting, grafting and air-layering etc. It is quick propagation processes that can lead to the production of plants virus free.
- callus culture
- secondary metabolite production
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
12. Genetics and Genomics in Plants
In biology, a gene is a unit of heredity transferred from a parent to offspring. Regions or group of genes can make up a plant’s or animals DNA structure and are what determine some characteristics. More simply put, a gene contains a particular set of instructions.
Plant Genetics is a wide spectrum term. There are multiple types of genetics in general. The study of genetics is the branch of biology that deals with heredity, especially the mechanisms of hereditary transmission and the variation of inherited characteristics among similar or related organisms. Plant genetics deals with the related activities of the plant that effect the day to day life processes of the plant.
Plant Genomics is the part of molecular biology working with the structure, function, evolution, and mapping of genomes in plants and widely used in Agriculture. Genomics deals with the study of genes, their expression and their activities, the role played in biology. Genomics is a branch of genetics that is concerned with the sequencing and analysis of organism's genome. Genomics helps us in maintaining the large number of database that assists us to study genetic variation.
- Epigenetics and Epigenomics
- Phylogenomics and Evolutionary Plant Genetics
- Gene Silencing and miRNAs
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
13. Bioinformatics in Plant Sciences
Bioinformatics is a terms which is tightly linked to the International Collaboration in genome sequencing projects and to the efforts of the pharmaceuticals industry in its drive for drug discovery and development etc. Bioinformatics allow us to come to the terms with the vast amount of data being generated by the genome sequencing projects. Powerful tools are needed to organize the data and to extend our ability to analyse these complex biological complex systems. Bioinformatics cover many topics including data bases on regulatory sequences; the regulation of gene expression; analyse and recognition of genome sequences; gene structure; gene prediction; modelling of transcriptional and translational control; large scale genomics on crop improvement.
In plant biology, these tools are helpful in improving crop, improving nutrition quality. It also aids in studying medicinal plants with the help of genomics, proteomics, transcriptomics, and helps in improving the quality of traditional medicinal material. Genomics helps in providing massive information to improve the crop phenotype. Bioinformatics have tools to analyse biological sequences like DNA, RNA and protein sequences. ‘Multiple alignments’ provides a method to estimate the number of genes in the gene families and also in the identification of the previously unidentified genes. The multiple alignment information helps in studying the gene expression pattern in plants. Computational tools are very much helpful in identification of ergonomically important gene by comparative analysis between crop plant and model species. Bioinformatics mainly deals with - 1. DNA, RNA and protein sequence 2. Molecular structure 3.Expression data.
- Genomic Research
- Crop Improvement
- Insect Resistance
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
14. Plant Cellular Biology
Plant cell biology is the study of all aspects of plant cells without emphasizing any one plant, organelle, molecule, or technique. It is particularly concerned with structure, growth, division, signalling, differentiation and death of plant cells. It Connects the fundamentals of plant anatomy, plant physiology, plant growth and development, plant taxonomy, plant biochemistry, plant molecular biology, and plant cell biology. It covers all aspects of plant cell biology without emphasizing any one plant, organelle, molecule, or technique. Although most examples are biased towards plants, basic similarities between all living eukaryotic cells (animal and plant) are recognized and used to best illustrate cell processes. This is a must-have reference for scientists with a background in plant anatomy, plant physiology, plant growth and development, plant taxonomy, and more.
- Drug discovery from natural sources and Herbal Medicines
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
15. Medicinal Plant Science
Plants synthesise hundreds of chemical compounds for functions including defence against insects, fungi, diseases and herbivores mammals. These plants have been termed as Medicinal Plants or medicinal herbs. It has been discovered and used in traditional medicine practices since prehistoric times. According to World Health Organization (WHO), about 70 per cent of the world’s population relies on plants for their primary health care and some 35,000 to 70,000 species have been used as medicaments, a figure corresponding to 14-28% of the 250,000 plants species estimated to occur around the world and equivalent to 35-70% of all species used worldwide. In today’s global market, more than 50 major drugs originated from tropical plants.
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
16. Molecular Plant Breeding
Plant breeding is simple: cross the best parents, and identify and recover progeny that outperform the parents. In practice, plant breeding is a three step process, wherein populations or germplasm collections with useful genetic variation are created or assembled, individuals with superior phenotypes are identified, and improved cultivars are developed from selected individuals. A wide diversity of approaches, tailored to the crop species and breeding objectives, have been developed for improving cultivars these breeding methods feature different types of populations, selection procedures, and outcomes.
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
17. Horticulture Sciences
Horticulture Sciences is the branch of agriculture that deals with the art, science, technology, and business of vegetable garden plant growing. Horticulture is the science and art of producing, improving, marketing, and using fruits, vegetables, flowers, and ornamental plants. It differs from botany and other plant sciences in that horticulture incorporates both science and aesthetics.
Recommended Conference: Plant Science Conference | Plant Research Conference | Plant Nutrition | Plant and soil science summit | Plant Genomic congress | Plant and Molecular expo | Experts meeting on Plant, Cellular and Molecular Biology
Importance and Scope:
Cellular Biology-2022 with the theme “Interdisciplinary approach for innovation in Plant Science” aims to share new ideas and new technologies and to optimize and enhance existing systems and it has the latest plant research for liquid transportation. As per reports by the international energy, agency indicates that global advanced Plant research operating capacity will double from 2 billion litres to 4 billion litres during 2013 to 2020, while global Plant research would grow from 115 to 139 billion over the same period. New reports suggest that advanced Plant Cellular Biology techniques now account for over half of newly installed Cellular Biology techniques.
Why Budapest?
Budapest is the capital and the most populous city of Hungary, and the ninth-largest city in the European Union by population within city limits. Budapest is both a city and county, and forms the center of the Budapest metropolitan area.
Budapest is an Alpha-global city with strengths in commerce, finance, media, art, fashion, research, technology, education, and entertainment. It is Hungary's financial center and was ranked as the second fastest-developing urban economy in Europe. Budapest is the headquarters of the European Institute of Innovation and Technology, the European Police College and the first foreign office of the China Investment Promotion Agency.
Among Budapest's important museums and cultural institutions is the Museum of Fine Arts. Further famous cultural institutions are the Hungarian National Museum, House of Terror, Franz Liszt Academy of Music, and Hungarian State Opera House. The central area of the city along the Danube River is classified as a UNESCO World Heritage Site and has several notable monuments, including the Hungarian Parliament, Buda Castle, Fisherman’s Bastion, Gresham Palace and the Liberty Statue.
Conference Highlights:
· Plant Molecular Biology & Biochemistry
· Plant Pathology and Mycology
· Plant nutrition and soil science
· Bioinformatics in Plant Sciences
Why Attend?
Cellular Biology 2021 is a platform to meet your target market with individuals from around the globe concentrated on finding out about advertising and showcasing, and insightful leaders through the research talks and presentations and encourage many novel approaches of production and scale-up of Plant Research. It adds a forum for all stakeholders, immense industrialists in the Agricultural and Plant Research sector, original research, featuring review articles, research and development spotlights, news, commentaries, interviews with keynote speakers and much more, with a prospect to building an international community of Plant Science communication.
Members association with Plant Science
The target audience will be plant and agricultural associations, plant physiologists, plant researchers, plant biotechnologists, plant genomics students and scientist, plant genomics scientists and faculty, business entrepreneurs, and the manufacturing companies of plant-related products.
Major Plant Cellular Biology Associations around the Globe
American Society of Plant Biologists (ASPB)
Australian Society of Plant Scientists (ASPS)
Korean Society of Plant Biologists (KSPB)
Committee of Professional Agricultural Organisations (COPA)
General Committee for Agricultural Cooperation in the European Union (COGECA)
European Commission on Agriculture (ECA)
Argentinean Society of Plant Physiology (SAFV)
American Society of Agronomy (ASA)
African Crop Science Society (ACSS)
Brazilian Society of Plant Physiology (SBFV)
Botanical Society of China (BSC)
Canadian Society of Plant Biologists (CSPB)
Chile’s National Network of Plant Biologists (CNNPB)
Chinese Society of Plant Biology (CSPB)
Crop Science Society of America (CSSA)
Crop Science Society of China (CSSC)
European Association for Research on Plant Breeding (EUCARPIA)
European Plant Cellular BiologyOrganisation (EPSO)
Federation of European Societies of Plant Biology (FESPB)
Genetics Society of China (GSC)
International Society of Plant Pathology (ISPP)
Indian Society of Plant Physiology (ISPP)
International Crop Science Society (ICSS)
International Society for Horticultural Science (ISHS)
Irish Plant Scientists' Association (IPSA)
International Society for Plant Molecular Biology (ISPMB)
Japanese Society for Plant Cell and Molecular Biology (JSPCMB)
Japanese Society of Plant Physiologists (JSPP)
Korean Society of Plant Biologists (KSPB)
New Zealand Society of Plant Biologists (NZSPB)
A Unique Opportunity for Advertisers and Sponsors at this International event:
The European Plant Cellular Biology report determines the concerned market in Europe on the basis of analysis and forecast of revenue. Europe is the second-largest market of Plant Science. The value of Plant Cellular Biology market in Europe was $1078.9 million in 2013 and is estimated to grow to $1494.2 million by 2019, at a Compound Annual Growth Rate (CAGR) of 9.6% from 2013 to 2019. Germany has the largest share in the European Plant Cellular Biology and is expected to grow at a CAGR of 7.7% from 2013 to 2019, followed by France, which is expected to grow at the same CAGR as that of Germany. Europe is the second-largest market poised to reach $296.56 million by 2019 and is estimated to grow at a CAGR of 6.3% from 2013 to 2020.
The European Plant Cellular Biology research market mainly focuses on plant pathology and plant breeding and plant tissue culture techniques and rise in venture capital funding and investments. Germany accounted for the highest share of the European Plant Cellular Biology research market in 2013 and expected to grow at a CAGR of 8.4%, during the forecast period of 2013 to 2019. Genetically Modified Organization based diagnostics dominated the overall market in terms of revenue at 42.4% in 2013 majorly owing to the presence of a relatively larger number of research and development programs. Plant genetically engineered plant segment, on the other hand, is expected to grow at the fastest CAGR of over 16.0% from 2014 to 2022 due to increasing demand for population-based therapeutic solutions and subsequent increase in R&D initiatives.
Market value on Cellular Biology:
The hugeness of plants in human life is noteworthy. Plants and plant items are fundamental for us. Sustenance, vitality, solution thus numerous things we can get from plants. This meeting looks to bring all such researcher, Noble Laureate, scientist, examine researcher, understudies and individuals together who are engaged with this field and give them to talk about their development, trade thoughts and connection with each other.
Meet your target market
The peoples from around the globe are focusing on learning the overview and techniques of Plant Cellular and Molecular Biology. So here is the opportunity to reach the largest group of a participant from around the world for grasping the knowledge of different field on a single platform. The conference will conduct Keynote presentations, Oral talks (Speaker forum and Young research forum), Poster presentations, Workshops and Exhibitions and receive a participation certificate at the 2 days event.
Conference Highlights
- Plant Sciences and Research
- Molecular Biology and Biochemistry of Plants
- Plant Biotechnology
- Plant Nanotechnology
- Plant Disease and Bryology
- Plant Pathology and Mycology
- Plant Hormones
- Phytochemical Analysis
- Plant metabolic engineering
- Plant nutrition and soil science
- Plant Tissue Culture
- Genetics and Genomics in Plants
- Bioinformatics in Plant Sciences
- Plant Cellular Biology
- Medicinal Plant Science
- Molecular Plant Breeding
- Horticulture Sciences
To share your views and research, please click here to register for the Conference.
To Collaborate Scientific Professionals around the World
Conference Date | November 15-16, 2022 | ||
Sponsors & Exhibitors |
|
||
Speaker Opportunity Closed | |||
Poster Opportunity Closed | Click Here to View |
Useful Links
Special Issues
All accepted abstracts will be published in respective Our International Journals.
- Asian Journal of Plant Science & Research
- Journal of Plant Sciences and Agricultural Research
- Journal of Plant Physiology & Pathology
Abstracts will be provided with Digital Object Identifier by