Call for Abstract

2nd International Conference on Bioscience, will be organized around the theme “Exploring bioscience for a sustainable & green future”

Bioscience 2017 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Bioscience 2017

Submit your abstract to any of the mentioned tracks.

Register now for the conference by choosing an appropriate package suitable to you.

It is defined as technologies that relate to therapeutic or diagnostic products or services, including medical devices and digital health technologies that improve human health.  Also included in the state definition are technologies that rely on research to improve agricultural output. As name “Bioscience” reflects belief that the study of biological systems is best approached by incorporating many perspectives. We bring together a diversity of disciplines that complement one another to unravel the complexity of biology. We incorporate the physical sciences, engineering, mathematics, computational and bioinformatics, and the social sciences, as appropriate, to problems we are addressing. We work with animals, plants and microorganisms and our research spans the levels of the biological hierarchy from molecules to ecosystems.

  • Track 1-1Environmental Science
  • Track 1-2Biomarkers & Molecular Bio Markers
  • Track 1-3Biodiversity and Ecology
  • Track 1-4Biometrics and Biostatistics
  • Track 1-5Inorganic and Organic Chemistry

Agriculture is the systematic raising of useful plants and livestock under the management of man. Agricultural Activity means the cultivation of the soil, planting of crops, growing of fruit trees, including the harvesting of such farm products, and other farm activities and practices performed by a farmer in conjunction with such farming operations done by persons whether natural or juridical. The practice of agriculture is based on systematized body of knowledge (science) and requires skill (art).

  • Track 2-1Agricultural Developments
  • Track 2-2Organic Agriculture
  • Track 2-3Agriculture Law & Policy

Biochemical Engineering:- Biochemical engineers translate exciting discoveries in life sciences into practical materials and processes contributing to human health and well-being.biochemical engineering is mainly deals with the design and construction of unit processes that involve biological organisms or molecules, such as bioreactors. Its applications are in the petrochemical industry, food, pharmaceutical, biotechnology, and water treatment industries.

  • Track 3-1Biocatalysis
  • Track 3-2Bioreactors
  • Track 3-3Biochemical and bio-molecular engineering

Biomedical Science:- study human diseases in order to improve human health and  Investigations carried out by biomedical scientists on body fluids and samples of tissue to identify the nature of the medical condition of disease and monitor  the treatment of patients. The branches of medical science that deal with nonsurgical techniques, studies the causes and nature and effects of diseases and  dealing with the medical use of X-rays or other penetrating radiation and nervous system.

  • Track 5-1Bio-Medical Technology
  • Track 5-2Bio-Medical & Healthcare Engineering
  • Track 5-3Biomedical Imaging and Bio signals
  • Track 5-4BioMedical Device Engineering

Biopharmaceutics and Biochemistry:- Biopharmaceutics is the study which shows how the drug absorption rate is affected by various factors like physical and chemical properties of the drug, the dose form of the drug and the route through which the drug is administered. Drugs are substances intended for use in the diagnosis, cure, mitigation, treatment, or prevention of disease. Drugs are given in a variety of dosage forms or drug products such as solids (tablets, capsules), semisolids (ointments, creams), liquids, suspensions, emulsions, etc, for systemic or local therapeutic activity. Drug products can be considered to be drug delivery systems that release and deliver drug to the site of action such that they produce the desired therapeutic effect and are also designed specifically to meet the patient's needs including palatability, convenience, and safety.Medical biotechnology is the use of living cells and cell materials to research and produce pharmaceutical and diagnostic products that help treat and prevent human diseases. Most medical biotechnologists work in academic or industrial settings. In academic laboratories, these professionals conduct experiments as part of medical research studies.

  • Track 6-1Novel Approaches in Biopharmaceutics
  • Track 6-2Array of Clinical Trials in Biopharmaceutics
  • Track 6-3Regulatory Sciences
  • Track 6-4Analytical Biochemistry
  • Track 6-5Clinical Biochemistry
  • Track 6-6Agricultural Biochemistry

Bioprocess and Biological Engineering:-Bioprocess engineering is the alteration or application of renewable materials to generate value-added products. It encompasses discovery, research, development and the manufacturing and commercialization of products. Products developed include: fuels, food, feed, pharmaceuticals, nutraceuticals and a multitude of value-added biomaterials found in and used by all industries.

  • Track 7-1Bioprocess and Product Development
  • Track 7-2Cell Bioprocessing
  • Track 7-3Bioprocess separation techniques
  • Track 7-4Bioprocess control and Safety
  • Track 7-5Biological Systems and Models
  • Track 7-6Biomedical and Biological Sensors

Cell biology: Cell biology clarifies the structure, association of the organelles they contain, their physiological properties, metabolic procedures, flagging pathways, life cycle, and collaborations with their surroundings. This is done both on a minuscule and sub-atomic level as it includes prokaryotic cells and eukaryotic cells. Knowing the segments of cells and how cells function is central to every single organic science; it is additionally key for research in bio-restorative fields, for example, growth, and different illnesses. Explore in cell science is firmly identified with hereditary qualities, natural chemistry, atomic science, immunology, and formative science. Cell science concentrates more on the investigation of eukaryotic cells, and their flagging pathways, as opposed to on prokaryotes which is secured under microbiology. The primary constituents of the general atomic piece of the cell incorporates: proteins and lipids which are either free streaming or film bound, alongside various interior compartments known as organelles.

  • Track 8-1Cell culture engineering
  • Track 8-2Stem cell therapy
  • Track 8-3Tissue science and engineering

Food Science:- Food science draws from many disciplines such as biology, chemical engineering, and biochemistry in an attempt to better understand food processes and ultimately improve food products for the general public. As the stewards of the field, food scientists study the physical, microbiological, and chemical makeup of food. By applying their findings, they are responsible for developing the safe, nutritious foods and innovative packaging that line supermarket shelves everywhere.Academic Performance (85% of Admission Score): Admission to the Food Science major is based on a minimum academic standing of 70%, calculated based on the best 21 credits per year of post-secondary courses required in this program. The student must have completed ENGL 112 or equivalent. Elective courses and LFS 100, LFS 250, LFS 350, or LFS 450 are not included in this calculation.

  • Track 12-1Public Health and Pediatric Nutrition
  • Track 12-2Food Processing and Technology
  • Track 12-3Food Engineering
  • Track 12-4Food Waste Management
  • Track 12-5Trends in Food Science & Technology
  • Track 12-6Microbiological and biochemical aspects of food

Genetics and Genomics: Genetics and genomics are two terms that are often incorrectly used interchangeably. Genetics is the study of single genes and their role in the way traits or conditions are passed from one generation to the next. Genomics is a term that describes the study of all parts of an organism's genes. Genetics is the study of genes, genetic variation, and heredity in living organisms. It is generally considered a field of biology, but it intersects frequently with many of the life sciences and is strongly linked with the study of information systems.

  • Track 13-1Plant Genomics
  • Track 13-2Genome Engineering
  • Track 13-3Pharmacogenomics
  • Track 13-4Next Generation Sequencing
  • Track 13-5Bioinformatics in Genomics

Microbiology:- Microbiology is the study of microscopic organisms, such as bacteria, viruses, archaea, fungi and protozoa. This discipline includes fundamental research on the biochemistry, physiology, cell biology, ecology, evolution and clinical aspects of microorganisms, including the host response to these agents. Microorganisms are beneficial for microbial biodegradation or bioremediation of domestic, agricultural and industrial wastes and subsurface pollution in soils, sediments and marine environments. The ability of each microorganism to degrade toxic waste depends on the nature of each contaminant.Symbiotic microbial communities are known to confer various benefits to their human and animal hosts health including aiding digestion, production of beneficial vitamins and amino acids, and suppression of pathogenic microbes. Some benefit may be conferred by consuming fermented foods, probiotics or prebiotics . The ways the microbiome influences human and animal health, as well as methods to influence the microbiome are active areas of research.Research has suggested that microorganisms could be useful in the treatment of cancer. Various strains of non-pathogenic clostridia can infiltrate and replicate within solid tumors. Clostridial vectors can be safely administered and their potential to deliver therapeutic proteins has been demonstrated in a variety of preclinical models.

  • Track 17-1Microbial Biochemistry
  • Track 17-2Microbial Genetics
  • Track 17-3Chemical Microbiology
  • Track 17-4Medical Microbiology
  • Track 17-5Microbiology and Applications

Molecular Biology:- Molecular Biology covers a wide scope of problems related to molecular and cell biology including structural and functional genomics, transcriptomics, proteomics, bioinformatics, biomedicine, molecular enzymology, molecular virology and molecular immunology, theoretical bases of biotechnology, physics and physical chemistry of proteins and nucleic acids. Unlike the majority of journals dealing with these subjects, Molecular Biology exercises a multidisciplinary approach and presents the complete pattern of relevant basic research mostly in Eastern Europe. Molecular Biology publishes general interest reviews, mini-reviews, experimental and theoretical works and computational analyses in molecular and cell biology.The molecular components make up biochemical pathways that provide the cells with energy, facilitate processing “messages” from outside the cell itself, generate new proteins, and replicate the cellular DNA genome. For example, molecular biologists study how proteins interact with RNA during “translation” (the biosynthesis of new proteins), the molecular mechanism behind DNA replication, and how genes are turned on and off, a process called “transcription.”

  • Track 18-1Plant Molecular Biology
  • Track 18-2Fungal Molecular Biology
  • Track 18-3Techniques of Molecular Biology
  • Track 18-4Advanced Applications of Molecular Biology
  • Track 19-1Quantitative Determination of Proteins
  • Track 19-2Biotechnology Applications and improvements
  • Track 19-3Nucleotide Sequence Analysis
  • Track 19-4Protein Separation and Analysis
  • Track 19-5DNA Replication process

Nano-Biotechnology:- Nanotechnology is the engineering of functional systems at the molecular scale. This covers both current work and concepts that are more advanced.In its original sense, 'nanotechnology' refers to the projected ability to construct items from the bottom up, using techniques and tools being developed today to make complete, high performance products.

  • Track 21-1Bionanomaterials and Tissues Engineering
  • Track 21-2DNA nanotechnology
  • Track 21-3Cancer Nanotechnology
  • Track 21-4Biomarkers and Nanoparticles
  • Track 23-1Bio Science market in USA
  • Track 23-2Bio Science market in UK
  • Track 23-3Bio Science market in Asia