Webinar on Plant Genomics and Plant Science welcomes you to Present your research and Ideas at Bangkok,Thailand on 30th - 31st Jan 2023.
Plant Genomics focuses on aspects such as breeding, genetic marker development, crop/ trait improvement, disease resistance, epigenetics, evolution studies, and transgenic plants as well as understanding tools to overcome the barrier and enable successful data analysis and management. Presentations concentrate not only particular to plant genome science but also crop and forestry research ranging from wheat, barley, maize, and rice to potato, tomato, Arabidopsis, biofuels and various fruits. Plant Genomics Webinar is your best opportunity to reach the largest assemblage of participants from the Plant Science and Genomics community.
The genome of plants can vary in their structure and complexity from small genomes like green algae to very large and complex genomes that have typically much higher ploidy, higher rates of heterozygosity and repetitive elements than species from other kingdoms. With the advent of low cost high-throughput sequencing, investigations of the genome have become much more sophisticated in recent years. It is now possible to compare multiple genomes within a species (pan-genomes) as well as across species (comparative genomics). One of the major challenges facing the field today is developing tools to mine these massive datasets and to visualize the results of comparative studies. As additional data channels become available (e.g. methylation profiles, RNAseq datasets, chromatin maps), new computational tools will also be needed to integrate multiple omics datasets.
Agricultural science is dealing with food and fibre production and processing. They include the technologies of soil cultivation, crop cultivation and harvesting, animal production, and the processing of plant and animal products for human consumption and use. Plant Genomics Congress encourages showcasing your research and development on: production, improving agricultural productivity in terms of quantity and quality, minimizing the effects of pests on crop or animal production systems.
Proteomics is the large-scale functional analysis of proteins extracted from intact organisms, tissues, individual cells, or cell compartments, at defined timepoints during development or under specific conditions. Plant Proteomics highlights the rapid progress in this field in plants, with emphasis on recent work in model plant species, subcellular organelles, and specific aspects of the plant life cycle such as signalling, reproduction and stress physiology. In addition, Plant Science Congress also include the study of basic concepts and applied aspects of experimental plant biology, genomics, proteomics, plant biochemistry, cell biology, evolutionary biology, functional plant breeding and systems biology. The current trends and future prospects of plant science research encompass the development of disease resistant plants through plant biotechnological innovations can be learnt and shared here at our Plant Genomics Conference
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. To know more interesting developments happening in this field, Plant Genomics Meeting stands as an excellent platform to discuss with your co researchers and students.
Plants undergo continuous exposure to various biotic and abiotic stresses in their natural environment. To survive under such conditions, plants exhibit stress tolerance or stress avoidance through acclimation and adaptation mechanisms that ultimately re-establish cellular and organismal homeostasis or reduce episodic shock effects. These abilities involve intricate and complex mechanisms of perception, transduction, and transmission of stress stimuli, allowing optimal response to environmental conditions. The perception of stimuli and their expansion in cells involves signalling molecules such as intracellular calcium and reactive oxygen species, which intensify the action of particular signalling pathways. Unleash your research findings on Stress Signalling in Plants to the world, This can be possible by our Plant Genomics Event.
Nutritional genomics is a new and promising science area which can broadly be defined as the application of high throughput genomics (transcriptomics, proteomics, metabolomics/metabonomics) and functional genomic technologies to the study of nutritional sciences and food technology. It provides a genetic understanding for how diet, nutrients or other food components affect the balance between health and disease by altering the expression and/or structure of an individual's genetic makeup. Though the population incresing day by day, many researchers and scientists give their best affords through new research developments and creations under Plant Nutritional Genetics, Here is your scientific forum to express your new challenges at Plant Genomics Sympossium
Crop improvement refers to the genetic alteration of plants to satisfy human needs. In prehistory, human forebears in various parts of the world brought into cultivation a few hundred species from the hundreds of thousands available. Through a long history of trial and error, a relatively few plant species have become the mainstay of agriculture and thus the world's food supply. Plant viruses are wide spread and economically important plant pathogens. Plant viruses consist of a nucleoprotein in that multiplies only in the living cells of a host .The presence of viruses in host cells often results in disease,400 or more viruses are known to attack plants.
Plant Biotechnology is a set of techniques used to adapt plants for specific needs or opportunities. Plant Biotechnology applies technological methods to biological organisms. Plant biotechnology can be defined as the introduction of desirable traits into plants through genetic modification.
Plant morphology deals with both the vegetative structures of plants, as well as the reproductive structures. It includes plant development, floral morphology pollination and fertilization. Plant morphology provides an overview of the science of studying the external form of plants. Plant metabolism includes the complex of physical and chemical events of photosynthesis, respiration, and the synthesis of organic compounds.
Plant Genetics is a wide range term. There are different kinds of hereditary qualities as a rule. The idea of hereditary qualities is the branch of science that arrangements with heredity, particularly the systems of innate transmission and the variety of acquired attributes among comparative or related life forms. Genomics is the investigation of the hereditary material or genomes of a life form. Investigators figure the Global Genomics market will develop at a CAGR of 11.21% over the period 2013-2018. As per the report, the most essential driver of the market is an expansion in the interest for consumables.
Plant Genomics Conference provides the greatest platform for plant pathologists and plant breeders to enhance and discuss current research developments along with scientific aspects of integrated plant protection within the framework of ecologically sound and economically reasonable land cultivation. Relevant topics include advanced methods of diagnosis, computer-assisted diagnosis, research and new findings in the field of plant and soil hygiene, biological methods of plant protection, selective chemical methods of plant protection, and the effects of plant-protecting agents and their toxicology, methods to induce and utilize crop resistance, techniques of application and economic aspects of plant protection.
Seed development represents an important phase in the life cycle of flowering plants including the majority of the crop plants. Despite progress in fundamental understanding of seed development, the global genetic and metabolic programs involved in the making of the seed and their implications to genetic improvement of the seed is yet to be fully exploited in crop plants. So, the major goal of several recent studies is to develop comprehensive systems-level insights into molecular and biochemical programs associated with gene expression, protein and metabolite profiles during seed development in model and crop plants. Plant Genomics Conference is providing the platform to hare and learn new developments in Seed technology
08th Jan 2023
15th Jan 2023
30th - 31st Jan 2023