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Molecular Basis of Biological Activity Among The Various Systems of A Cell.
- Molecular biology 2017


Molecular Biology 2017

Allied Academic Publication is an amalgamation of several esteemed academic and scientific associations known for promoting scientific temperament. Established in the year 1997, Andrew John Publishing Group is a specialized Medical publisher that operates in collaboration with the association and societies.  This publishing house has been built on the base of esteemed academic and research institutions including The College of Audiologists and Speech-Language Pathologists of Ontario(CASLPO), The Association of Public-Safety Communications Officials of Canada (APCO), The Canadian Vascular Access Association (CVAA), The Canadian Society of Internal Medicine (CSIM), The Canadian Hard of Hearing Association (CHHA), Sonography Canada, Canadian Association of Pathologists (CAP-ACP) and The Canadian Association of Neurophysiologic Monitoring (CANM).

Welcome Message

World Molecular biology and R&D Summit


October 23-24, 2017 Toronto, Canada


Molecular Biology 2017 aims to shed focus on the transnational nature of biotechnological research, with emphasis on both the basic science as well as its applications in industry and academia. Latest researches, agricultural Molecular Biology, business models, pharmaceutical Molecular Biology, medical Molecular Biology, cancer biology, immunology, genetics, protein engineering, plant and environmental technologies, transgenic plant and crops, bio remediation, and microbial diversity research will be the subjects of discussion.


Target Audience:

Target Audience for Molecular Biology Conference 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.



Molecular Biology: From Basic to Emerging Technologies


Molecular Biology is an interdisciplinary subject in biology it is a combination of subjects like Biochemistry, Genetics, Bioinformatics, Computational biology. It deals with the molecular activity processes like replication, transcription, translation, and cell function. Various Emerging Technologies were developed in Molecular biology those are like 1) Organic electronics 2) Nutrigenomics Redox 3) Signaling Technology


Molecular Biochemistry& Plant Molecular Biology 

Molecular Biochemistry is the study of the molecular mechanisms by which genetic information encoded in DNA is able to result in the processes of life. Molecular Biochemistry has developed widely to capture the array of chemistry, physics, medicine and biology. It is one of the most important aspects of molecular biology to discover the chemical properties of the molecules. The kind various processes that occur within the cell are responsible for their structure, reproduction and response to stimuli. In medicine, Molecular biochemists investigate the causes and cure of diseases. In nutrition, they study how to maintain health and side effects of nutritional deficiencies. In agriculture, Molecular biochemists investigate soil and fertilizers, and try to discover a new solutions or new techniques to improve crop cultivation, crop storage and pest control.

Plant molecular biology is the study of the molecular basis of plant life. It is particularly concerned with the processes by which the information encoded in the genome is manifested as structures, processes and behaviors.


Genetics & Genetic Engineering


Modern genetics has expanded beyond inheritance to study the function and behavior of genes and gene structure and function, variation, and distribution are studied within the context of the cell, the organism and within the context of the population Genetic engineering is the process of manually adding new DNA to an organism. The goal is to add one or more new traits that are not already found in that organism (or) Genetic engineering alters the genetic make-up of an organism using techniques that remove heritable material or that introduce DNA prepared outside the organism either directly into the host or into a living cell that is then fused or hybridized with the host. Example of genetically modified foods and plants such as genetically modified corn (resistant to the herbicide Glyphosate ) , genetically engineered soy, Yellow Crookneck Squash and Zucchini, Alfalfa, Sugar Beets.


 Protein Engineering & Development

Proteinengineering is the process or a procedure of developing useful or valuable proteins. It is an interdisciplinary subject in the field of life sciences in this study of various kind of protein structures, interactions, protein folding and also designing of protein principles can be done. There are to two are present for protein engineering those are

A.      Rational protein design

B.      Direct evolution design

Genomics &Proteomics

Genomics is the study of entire genomes and theirs roles, function, importance and related techniques in inheritance. Genomics also involves in study of intra genomic processes like epistasis, pleiotropy and as well as the interactions between loci and alleles within the genome. Genomics has the potential of offering new therapeutic methods for the treatment of some diseases, as well as new diagnostic methods. Genomics involves the study of all genes at the DNA, mRNA, and proteome level as well as the cellular or tissue level.

Proteomics is large the scale study of a specific proteome, including information on protein abundances, their variations and modifications, along with their interacting partners and networks. 


RNA-Based Therapeutic Approaches 

RNA-based therapeutics can be classified based on the mechanism of activity, and it include inhibitors of mRNA translation, the agents of RNA interference (RNAi), catalytically active RNA molecules, and RNAs that bind proteins and other molecular ligands. RNA therapeutics have improvements in synthetic and natural nucleic acid carriers and the development of chemically modified oligonucleotides. RNA-based therapeutics currently under clinical investigation for diseases like genetic disorders, HIV infection, and various cancers. RNA is inherently unstable, mostly immunogenic, and requires a delivery vehicle for efficient transport to the targeted cells. RNA-based therapeutics that broaden the range of “drug-able” targets beyond the scope of existing pharmacological drugs.


Cell Signaling, Kinase and Chemotherapy


Cell signaling is the process of communication that governs the basic activities of cells and coordinates cell actions. Cells can communicate by using chemical signals. These chemical signals, may be proteins or other molecules produced by a sending cell, are often secreted from the cell and released into the extracellular space. By understanding the cell signaling, diseases can be treated more effectively and, theoretically, artificial tissues may be created. Example endocrine signaling by hormones. They may respond to molecules on the surface of adjacent cell. Signaling molecule may trigger immediate change in the metabolism of the cell. Chemotherapy is treatment in which medicines and drugs are used to treat the cancer disease (or) chemotherapy is treatment process in which distraction of cancer cells takes place. Chemotherapy may also include the use of antibiotics other medications to treat any illness or infection.

Tissue Engineering and GenomeEngineering


Tissue Engineering can be defined as use of living cells, material and engineering methods, and use of biochemical factors and physicochemical factors, to improve or replace the biological tissues. The main aim of the tissue engineering is to assemble functional constructs that restore, maintain, or improve damaged tissues or whole organs. This field mainly focuses on cures instead of treatments for complex diseases or chronic diseases.  Genome Engineering can be defined as use of engineering methods to modify or to replace the genetic information of the genome of a living organism. This field have many application in fields like human health, agriculture biotechnology( to produce genetically modified crops and plants), in the production of  therapeutic proteins, in production of genetically modified organisms(transgenic sheep, pig, mouse etc),in applied biological research.

Bioinformatics and Drug Designing 


Bioinformatics is an interdisciplinary field of science it develops the methods and software tools for an understanding of biological data. It is combination subjects like computer science, statistics, mathematics, and engineering. It is has been used in in silico analyses of biological queries using mathematical and statistical techniques. The uses of bioinformatics include the identification of particular or specific genes and nucleotides of a living organism, used for identification of differences between the population, and also used for phylogenetic tree analysis and used for better understanding the genetic basis of diseases. Drug design is an invite process finding new medication on the basis of biological target. It is also called as rational drug design or rational design that is an invitation order to yield significant therapeutic response. The drug design involves the design of molecules that are similar to the bio molecular target site in shape or structure and charge in order to bind to it.

ComputationalMolecular Biology 

ComputationalMolecular Biology is an interdisciplinary subject in field of science it mainly focuses on the computational, statistical, experimental, and technological methods, which is accelerating the discovery of new technologies and tools for molecular biology. In computational molecular biology   we can understand the major issues concerning analysis of genomes, sequences and structures of molecules. It also focuses on sequence alignment algorithms, dynamic programming, hashing, suffix trees, and Gibbs sampling, and computational approaches to, genetic and physical mapping, genome sequencing, assembly, RNA expression and secondary structure, protein structure and folding, and molecular interactions and dynamics

Techniques used in Molecular Biology

In Molecular Biology several techniques are used those are given below 

1) Molecular cloning or Expression cloning 2)Polymerase Chain Reaction 3)Gel electrophoresis 4) Macromolecule blotting

Rare andUndiagnosed Diseases


Rare diseasesand Undiagnosed diseases are the diseases that affects the small number of people or small percentage of population. Many rare diseases appeared early in life, and about 30 percent of children with rare diseases will die before reaching their 5th birthday. These are mostly geneticdisorders. Next-generation sequencing (NGS) technology is used to discover the Rare and Undiagnosed Diseases.

MitochondrialGenetics and Diseases


MitochondrialGenetics is the study of genetics of mitochondrial DNA. In most multi cellular organisms, mitochondrial DNA is inherited only from the mother's ovum. Mitochondrial DNA mutations lead to functional problems, which may causes muscle disorders. Mitochondrial DNA is used in electron transport chain, replication, transcription, and translation. Mitochondrial disease is principally a chronic loss of cellular energy, Mitochondria is  responsible for creating more than 90% of the energy needed by the body to sustain life and to support organ function.

Agriculture Molecular Biology

#Modern biotechnology holds considerable promise to meet challenges in agricultural production. It makes use of life sciences, chemical sciences and engineering sciences in achieving and improving the technological applications of the capabilities of the living organism of their derivate to make products of value to man and society. It is used in living systems to develop commercial processes and products which also include the techniques of Recombinant DNA, #gene transfer, embryo manipulation, plant regeneration, cell culture, monoclonal antibodies and bio-processed engineering. Today, most investigators provide very little thought to the interface between organic chemistry, cell and biological science and agriculture, abundant larger stress is placed on the medical specialty connection of analysis than on its connection to animal agriculture. This doubtless is as a result of the dynamic demographics of the USA. At the flip of the twentieth century, 43% of the U.S. workforce was concerned in agriculture. Advances in cell and biological science still impact animal agriculture, and eutherian species typically area unit valuable models for medical specialty analysis.

Market Analysis

Importance and scope:

In the past, Molecular Biology concentrated on the production of food and medicine. It also tried to solve environmental problems. In the nineteenth century, industries linked to the fermentation technology had grown tremendously because of the high demand for various chemicals such as ethanol, butanol, glycerine, acetone, etc. The advancement in fermentation process by its interaction with chemical

Engineering has given rise to a new area—the bioprocess technology. Large-scale production of proteins and enzymes can be carried out by applying bioprocess technology in fermentation. Applying the principles of biology, chemistry, and engineering sciences, processes are developed to create large quantities of chemicals, antibiotics, proteins, and enzymes in an economical manner. Bioprocess technology includes media and buffer preparation, upstream processing and downstream Processing. This has led to the division of Molecular Biology into different areas such as agricultural Molecular Biology, medical or pharmaceutical Molecular Biology, industrial Molecular Biology, and environmental Molecular Biology.

Why in Canada?

Canada is currently focusing on interest in Molecular Biology enterprises practicing both in human wellbeing for the tropics, Genetics, Biochemistry, Bioinformatics, Medicine, Molecular immunology, Computational biology, Biotechnology. In a world commanded by northern half of the globe medicate organizations concentrating on the wellbeing needs of higher-pay countries; these two parts constitute a less aggressive field for Canada to endeavor the cutting edge strength that has since quite a while ago escaped the country. With most spaces on the innovative chessboard, for example, IT and programming as of now completely involved by US, European or propelled East Asian countries, Molecular biology could be Canada's "next huge thing" in the years to 2020. Thousands of foreign students from more than 160 countries and regions attend the University ofToronto. In a recent year, the top countries of origin for non-Canadian students were China, India and the U.S. Tuition is higher for international students. Canada publishing most of the publication on molecular biology than any other country it was ranked in first in the world.

Molecular biology is one of the most prior sectors in Canada, and continues to significant expansion.  Canada has built an exceptionally strong Molecular biology and Molecular medicines sectors. The Molecular biology market in Canada is equally astonishing, comprised of a strong scientific base, abundant natural resources, growing population. Together, these trends have more demand for health care services. Most public and private laboratories invest their resources in research towards new solutions for the production of medicines for various kind of diseases like Alzheimer’s, Huntington’s disease, muscular dystrophies, and smallpox, cholera and typhoid fever, and gastrointestinal infections and gastric ulcers, transgenic and sustainably-produced food.

Total Revenue in Molecular Biology and Annual growth

The molecular biology enzymes and kits & reagents market is projected to reach USD 12.69 Billion by 2021 from USD 5.77 Billion in 2016, growing at a CAGR of 17.1% during the forecast period of 2016 to 2021. Growth in molecular biology enzymes and kits & reagents market can be attributed to the technological advancements in the life science industry. Growth in molecular biology enzymes and kits & reagents market can be attributed to the technological advancements in the life science industry, increased research activities in the pharmaceutical and biotechnology sector, rising incidences of infectious diseases and genetic disorders, and successful completion of human genome project. On the other hand, privacy issues related to genetic information and unfavorable reimbursement scenario for genetic testing are expected to restraint the molecular biology reagents market growth during the forecast period.

Molecular Biology products represented 21% of the total $714bn global market for prescription drugs in 2012, equating to $150bn of sales.  The size of the prescription drugs market is expected to grow at a CAGR of 3.8% to reach $895bn in 2018, and the Molecular Biology industry’s share of this is expected to grow to 25%, equivalent to $224bn.  This represents a CAGR of 6.9% for the biotechmarket, higher than the growth of aggregate pharmaceutical industry because Molecular Biology products have a less aggressive rate of sales erosion from generic drugs


List of Universities related to Molecular Biology

  • University of Toronto, Canada
  • McGill University, Canada
  • University of British Columbia, Vancouver, Canada
  • University of Montreal, Canada
  • Harvard University, Massachusetts, United States
  • University of California, San Francisco, United states
  • University of Cambridge, United States
  • Stanford University, California, United States
  • University of Oxford, United States
  • Massachusetts Institute of Technology, United States
  • University of Washington, Seattle, United States
  • University College London, United Kingdom
  • University of Melbourne, Australia

Major Molecular Biology Companies

  • Arbutus Biopharma, Canada
  • FUJIFILM Visual Sonics, Inc, Canada
  • Johnson & Johnson, New Jersey, United States
  • Pfizer Pharmaceutical, New York City, United States
  • Novartis, Basel, Switzerland
  • Amgen, California, United States
  • Sanofi Pharmaceuticals, France
  • Hoffmann-La Roche, Basel, Switzerland
  • AbbVie Inc., United States
  • Bristol-Myers Squibb, New York, United States
  • GlaxoSmithKline, London, United Kingdom
  • Bayer, Leverkusen, Germany
  • Biogen, Massachusetts, United State
  • Stryker Corporation, United States
  • Alexion Pharmaceuticals, New Haven, United States 

Major Molecular Biology Associations around the Globe

  • American Society for Biochemistry and Molecular Biology
  • EFPIA European Federation of Pharmaceutical Industries and Associations
  • American Institute of Biological Sciences(AIBS)
  • American Society for Cell Biology
  • The German Society for Biochemistry and Molecular Biology
  • Federation of European Biochemical Societies
  • American Chemical Society
  • Association for Molecular Pathology(AMP)
  • American Association of Bio analysis- Molecular/Genetic Testing
  • Molecular Biology Association Search Form- CGAP
  • Association of Genetic Technologies
  • Molecular Biology Student Association
  • Association for Clinical Genetic Science
  • International Federation of Human Genetics Societies
  • Society for Molecular Biology and Evolution


Organizing Committee
OCM Member
Prof. Mayron R Szewczuk
Professor, Biomedical & Molecular Sciences
Queen's University
Kingston, Canada
OCM Member
Dr. Azizur Rahman
Head/Director of HiGarden Inc.and Senior Research Scientist at the University of Toronto
University of Toronto, Scarborough
Toronto, Canada
OCM Member
Dr. Ram Samudrala
Professor and Cheif, Biomedical Informatics
The State University of New York
New York, USA
OCM Member
Doctor R. Cuero
Distinguished Professor, Scientist&Founder and Research Director of the International Park of Creativity
Dr. Rajendra D. Badgaiyan, MD
Newark , USA
OCM Member
Dr.Mariapia Viola-Magni
President of ONLUS Foundation for research “Enrico Puccinelli”.
University of Perguia
Perugia, Italy
OCM Member
Prof.Yung-Chih Kuo
Professor, Chemical Engineering
National Cheng Kung University
East District, Taiwan
OCM Member
Dr. Saheem Ahmad
Associate Professor, Department of Bio sciences
Integral University
Lucknow, India
OCM Member
Dr.Ching-Yen Tsai
Associated Research Scientist &Manager
Institute of Molecular Biology
Kaohsiung, Taiwan
OCM Member
Dr.Yiu Fai Tsang
Adjunct Professor, Science and Environmental Studies (SES)
The Education University of Hong Kong
Tai Po, Hong Kong
OCM Member
Dr. Abdeen Mustafa Omer
Associate Researcher, Environment and Renewable Energy Technologies
Energy Research Institute (ERI)
London, United Kingdom
OCM Member
Dr.Raghuvir R S Pissurlenkar
Associate Professor, Pharmaceutical Chemistry
Goa College of Pharmacy, Panaji Goa, INDIA
Panagi, India
Park Inn By Radisson Toronto Airport West
175 Derry Road East
Mississauga, Ontario
L5T 2Z7, Canada

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Contact Desk


Richard Matthew ,12018779344 Ext 5001, 5003.


Richard Matthew, 12018779344 Ext 5001, 5003.


Richard Matthew,12018779344 Ext 5001, 5003.

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