World convention on

sustainable Biotechnology

Auckland, Newzeland   Oct 12-13, 2017

Auckland, Newzeland Oct 12-13, 2017

Theme: Recent Advancement and Upcoming Challenges in Biotechnology for sustainable Bio-world

BIOTECHNOLOGY:
At its simplest, biotechnology is technology based on biology - biotechnology harnesses cellular and bio molecular processes to develop technologies and products that help improve our lives and the health of our planet. We have used the biological processes of microorganisms for more than 6,000 years to make useful food products, such as bread and cheese, and to preserve dairy products.  it the use of living systems and organisms 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 us Depending on the tools and applications, it often overlaps with the (related) fields of bioengineering, biomedical engineeringbio manufacturingmolecular engineering, etc.
Biotechnology has applications in four major industrial areas, including health care (medical), crop production and agriculture, nonfood (industrial) uses of crops and other products (e.g. biodegradable plastics, vegetable oil, biofuels), and environmental uses.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th  Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC); Australia’s Biotechnology Organization (AusBiotech); New Zealand Biotechnology (NZBIO); Biotechnology Innovation Organization (BIO).
 
PLANT BIOTECHNOLOGY:
 Plant biotechnology is transgenic biotechnology, which essentially involves exchanging plant genes to create a superior hybrid species. This type of biotechnology involves growing tissue cultures to develop unique new plants. The new species then exhibit the desired new trait, such as increased nutritional value or improved resistance to pests. Plant biotechnology is also used to create novel genetic combinations, such as hybridization, mutation and transgenic movement. Hybridization involves merging two distinct set of genes to create random combinations while mutation creates unpredictable changes to produce a series of random genes in just one plant. Transgenic gene movement involves inserting one or two new genes to an existing plant, which creates subtle changes. Some plant biotechnologies produce small changes to enhance certain plant qualities or characteristics while others produce entirely new specimens with altered physical characteristics. Plant Biotechnology is one aspect of Agricultural Biotechnology which has been greatly developed upon in recent times. Desired trait are exported from a particular species of Crop to an entirely different species. These Transgene crops possess desirable characteristics in terms of flavor, color of flowers, growth rate, size of harvested products and resistance to diseases and pests.
Plants have always provided food, fuel, food additives, drugs, pesticides, pigments, resins, perfumes and other important industrial, medicinal and agricultural raw materials. The techniques of plant, organ, tissue and cell culture have evolved since the beginning of this century and combined with recent advances in genetics and using conventional plant breeding, the plant biotechnology is having a significant impact on agriculture, horticulture and forestry. Some examples of the current applications in agriculture are micro propagation, somatic embryogenesis, virus and pathogen elimination, embryo rescue, germ plasma storage and plant modification by somatic clonal variation and genetic engineering.
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC); Australia’s Biotechnology Organization (AusBiotech); New Zealand Biotechnology (NZBIO); Biotechnology Innovation Organization (BIO).
 
ANIMAL BIOTECHNOLOGY:
Animal biotechnology is a branch of biotechnology in which molecular biology techniques are used to genetically engineer animals in order to improve their suitability for pharmaceutical, agricultural or industrial applications. Many animals also help by serving as models of disease.  If an animal gets a disease that's similar to humans, we can use that animal to test treatments.  Animals are often used to help us understand how new drugs will work and whether or not they'll be safe for humans and effective in treating disease. Animal biotechnology now a days based on science of genetic engineering, it existing in other technologies such as transgenics and cloning that are used in animal biotechnology.
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)Australia’s Biotechnology Organization (AusBiotech); New Zealand Biotechnology (NZBIO); Biotechnology Innovation Organization (BIO)
 
INDUSTRIAL BIOTECHNOLOGY:
Industrial biotechnology is one of the most promising new approaches to pollution prevention, resource conservation, and cost reduction. It is often referred to as the third wave in biotechnology. If developed to its full potential, industrial biotechnology may have a larger impact on the world than health care and agricultural biotechnology. It offers businesses a way to reduce costs and create new markets while protecting the environment. Also, since many of its products do not require the lengthy review times that drug products must undergo, it's a quicker, easier pathway to the market. Today, new industrial processes can be taken from lab study to commercial application in two to five years, compared to up to a decade for drugs
Industrial biotechnology companies use many specialized techniques to find and improve nature's enzymes. Information from genomic studies on microorganisms is helping researchers capitalize on the wealth of genetic diversity in microbial populations. Researchers first search for enzyme-producing microorganisms in the natural
environment and then use DNA probes to search at the molecular level for genes that produce enzymes with specific bio catalytic capabilities. Once isolated, such enzymes can be identified and characterized for their ability to function in specific industrial processes. If necessary, they can be improved with biotechnology techniques.
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand;
 
MARINE BIOTECHNOLOGY:
Marine Biotechnology can be broadly defined as the technology that uses living marine. Organisms, or their parts, to make or modify products. Oceans cover 75 percent of the. Earth's surface and the marine biosphere is one of the richest of Earth's habitats.
Marine biology is the scientific study of organisms in the sea or other marine bodies of water. Given that in biology many phyla, families and genera have some species that live in the sea and others that live on land, marine biology classifies species based on the environment rather than on taxonomy. Marine biology differs from marine ecology as marine ecology is focused on how organisms interact with each other and the environment, while biology is the study of the organisms themselves.
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB)The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)Australia’s Biotechnology Organization (AusBiotech); New Zealand Biotechnology (NZBIO); Biotechnology Innovation Organization (BIO)
 
FOOD BIOTECHNOLOGY:
The application of biotechnology in the food sciences has led to an increase in food production and enhanced the quality and safety of food. Food biotechnology is a dynamic field and the continual progress and advances have not only dealt effectively with issues related to food security but also augmented the nutritional and health aspects of food. Advances in Food Biotechnology provides an overview of the latest development in food biotechnology as it relates to safety, quality and security.
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB)The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)Australia’s Biotechnology Organization (AusBiotech)New Zealand Biotechnology (NZBIO); Biotechnology Innovation Organization (BIO)
 
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 analyze 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.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)Australia’s Biotechnology Organization (AusBiotech)New Zealand Biotechnology (NZBIO); Biotechnology Innovation Organization (BIO)
 
APPLICATIONS OF BIOTECHNOLOGY:
Biotechnology is a very huge field and its applications are used in a variety of fields of science such as agriculture and medicine. The pasture of biotechnology, genetic engineering, has introduced techniques like gene therapy, recombinant DNA technology and polymerase chain retort which employ genes and DNA molecules to make a diagnosis diseases and put in new and strong genes in the body which put back the injured cells. There are some applications of biotechnology which are live their part in the turf of medicine and giving good results:
Bio pharmaceutical means of the technique of biotechnology, the drugs biopharmaceuticals were urbanized. There are no chemicals concerned in the combination of these drugs, but microorganisms have completed it likely to expand them. Gene therapy is one more technique of biotechnologies which is used to delicacy and diagnoses diseases like cancer and Parkinson's disease. The apparatus of this technique is that the fit genes are under attack in the body which either obliterate the injured cells or replace them. In some cases, the fit genes make corrections in the genetic information and that is how the genes start performance in the favor of the body. Genetic testing is a technique of heredity which is used to conclude the genetic diseases in parents, sex and carrier screening. The technique of genetic testing is to use DNA probes which have the sequence alike to the mutated sequences. This technique is also used to recognize the criminals and to test the parenthood of the child.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand;
                                                            
BIO-MEDICAL TECHNOLOGY:
Biomedical technology broadly refers to the application of engineering and technology principles to the domain of living or biological systems. Usually inclusion of the term biomedical denotes a principal emphasis on problems related to human health and diseases, whereas terms like "biotechnology" can be medical, environmental, or agricultural in application. But most terms in this general realm still lack clear boundaries. Biomedical engineering and Biotechnology alike are often loosely called Biomedical Technology or Bioengineering. Green biotechnology is an application of biological techniques to plants with the aim of improving the nutritional quality, quantity and production economics.
 
Genetic Diagnosis and Gene Therapy:
The process of testing for suspected genetic defects before administering treatment is called genetic diagnosis by genetic testing. Depending on the inheritance patterns of a disease-causing gene, family members are advised to undergo genetic testing. Treatment plans are based on the findings of genetic tests that determine the type of cancer. If the cancer is caused by inherited gene mutations, other female relatives are also advised to undergo genetic testing and periodic screening for breast cancer. Genetic testing is also offered for fetuses to determine the presence or absence of disease-causing genes in families with specific, debilitating diseases.
Genetic testing involves the direct examination of the DNA molecule itself. A scientist scans a patient's DNA sample for mutated sequences. There are two major types of gene tests. In the first type, a researcher may design short pieces of DNA whose sequences are complementary to the mutated sequences. These probes will seek their complement among the base pairs of an individual's genome. If the mutated sequence is present in the patient's genome, the probe will bind to it and flag the mutation. In the second type, a researcher may conduct the gene test by comparing the sequence of DNA bases in a patient's gene to a normal version of the gene.
Gene therapy is a genetic engineering technique used to cure disease. In its simplest form, it involves the introduction of a good gene at a random location in the genome to aid the cure of a disease that is caused by a mutated gene. The good gene is usually introduced into diseased cells as part of a vector transmitted by a virus that can infect the host cell and deliver the foreign DNA. More advanced forms of gene therapy try to correct the mutation at the original site in the genome, such as is the case with treatment of severe combined immunodeficiency (SCID).
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand;
 
MOLECULAR BIOTECHNOLOGY:
In its broadest sense, molecular biotechnology is the use of laboratory techniques to study and modify nucleic acids and proteins for applications in areas such as human and animal health, agriculture, and the environment.  Molecular biotechnology results from the convergence of many areas of research, such as molecular biology, microbiology, biochemistry, immunology, genetics, and cell biology.  It is an exciting field fueled by the ability to transfer genetic information between organisms with the goal of understanding important biological processes or creating a useful product.  The completion of the human genome project has opened a myriad of opportunities to create new medicines and treatments, as well as approaches to improve existing medicines.   Molecular biotechnology is a rapidly changing and dynamic field.  As the pace of advances accelerates, its influence will increase.  The importance and impact of molecular biotechnology is being felt across the nation.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand;
15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic;
 
ENVIRONMENTAL BIOTECHNOLOGY:
Environmental biotechnology is biotechnology that is applied to and used to study the natural environment. Environmental biotechnology could also imply that one try 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 (landairwater), and for environment-friendly processes (green manufacturing technologies and sustainable development)".
Environmental biotechnology can simply be described as "the optimal use of nature, in the form of plantsanimalsbacteriafungi and algae, to produce renewable energyfood and nutrients in a synergistic integrated cycle of profit making processes where the waste of each process becomes the feedstock for another process".
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 
 
 
 
NANOTECHNOLOGY:
Nanotechnology is science, engineering, and technology conducted at the nano scale, which is about 1 to 100 nanometers. It’s hard to imagine just how small nanotechnology is. One nanometer is a billionth of a meter, or 10-9 of a meter. Here are a few illustrative examples: There are 25,400,000 nanometers in an inch
·         A sheet of newspaper is about 100,000 nanometers thick
·         On a comparative scale, if a marble were a nanometer, then one meter would be the size of the Earth.
The DST/Mintel Nanotechnology Innovation Centre (Bio labels Unit) focus on the development of nanotechnology-based diagnostic and therapeutic systems to address some of the major health concerns in South Africa (www.nic.ac.za). The Bio labels Unit use proteomic and transcriptomic approaches to identify disease biomarkers that can be used for the development of point-of-care diagnostic systems or to improve current diagnostic methods. The Unit is also developing nanoparticle/drug conjugates with the aim of producing targeted drug delivery systems for the treatment of diabetes, HIV and cancer.
 
 
 
World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)
 
MARKET ANALYSIS:
From agriculture to environmental science, biotechnology plays an important role in improving industry standards, services, and developing new products. Biotechnology involves the spectrum of life science-based research companies working on transformative technologies for a wide range of industries. While agriculture, material science and environmental science are major areas of research, the largest impact is made in the field medicine. As a large player in the research and development of pharmaceuticals, the role of biotechnology in the healthcare field is undeniable. From genetically analysis and manipulation to the formation of new drugs, many biotech firms are transforming into pharmaceutical and biopharmaceutical leaders.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)
 
BIOTECHNOLOGY CAPITAL AND GRANTS:
Every new business needs some startup capital, for research, product development and production, permits and licensing and other overhead costs, in addition to what is needed to pay your staff, if you have any. Meetings International Biotechnology products arise from successful biotech companies. These companies are built by talented individuals in possession of a scientific breakthrough that is translated into a product or service idea, which is ultimately brought into commercialization. At the heart of this effort is the biotech entrepreneur, who forms the company with a vision they believe will benefit the lives and health of countless individuals. Entrepreneurs start biotechnology companies for various reasons, but creating revolutionary products and tools that impact the lives of potentially millions of people is one of the fundamental reasons why all entrepreneurs start biotechnology companies.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)
 
PHARMACEUTICAL BIOTECHNOLOGY:
Pharmaceutical Biotechnology is the science that covers all technologies required for producing, manufacturing and registration of biological drugsPharmaceutical Biotechnology is an increasingly important area of science and technology. It contributes in design and delivery of new therapeutic drugs, diagnostic agents for medical tests, and in gene therapy for correcting the medical symptoms of hereditary diseases. The Pharmaceutical Biotechnology is widely spread, ranging from many ethical issues to changes in healthcare practices and a significant contribution to the development of national economy. Biopharmaceuticals consists of large biological molecules which are proteins. They target the underlying mechanisms and pathways of a disease or ailment; it is a relatively young industry. They can deal with targets in humans that are not accessible with traditional medicines.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)
 
BIOSAFETY AND BIOETHICS:
Biosafety is the prevention of large-scale loss of biological integrity, focusing both on ecology and human health.[1] These prevention mechanisms include conduction of regular reviews of the biosafety in laboratory settings, as well as strict guidelines to follow. Biosafety is used to protect from harmful incidents. Many laboratories handling biohazards employ an ongoing risk management assessment and enforcement process for biosafety. Failures to follow such protocols can lead to increased risk of exposure to biohazards or pathogens. (citation) Human error and poor technique contribute to unnecessary exposure and compromise the best safeguards set into place for protection
Bioethics is the application of ethics to the field of medicine and healthcare. It is also moral discernment as it relates to medical policy, practice, and research. The Term “bioethics” was first coined in 1971 (some say by University of Wisconsin professor Van Rensselaer Potter; others, by fellows of the Kennedy Institute in Washington, D.C.), it may have signified merely the combination of biology and bioscience with humanistic knowledge. The scope of bioethics can expand with biotechnology, including cloninggene therapylife extension, human genetic engineering, astroethics and life in space, and manipulation of basic biology through altered DNA, XNA and proteins.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC).
 
BIO-MEDICAL ENGINEERING:
Biomedical engineers differ from other engineering disciplines that have an influence on human health in that biomedical engineers use and apply an intimate knowledge of modern biological principles in their engineering design process. Aspects of mechanical engineering, electrical engineering, chemical engineering, materials science, chemistry, mathematics, and computer science and engineering are all integrated with human biology in biomedical engineering to improve human health, whether it is an advanced prosthetic limb or a breakthrough in identifying proteins within cells. Biomedical engineers typically do the following: Design equipment and devices, such as artificial internal organs, replacements for body parts, and machines for diagnosing medical problems. Install, adjust, maintain, repair, or provide technical support for biomedical equipment. Biomedical informatics (BMI) is the interdisciplinary field that studies and pursues the effective uses of biomedical data, information, and knowledge for scientific inquiry, problem solving.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)
 
FOOD SAFETY AND PROCESSING TECHNOLOGY:
Food processing is a process by which non-palatable and easily perishable raw materials are converted to edible and potable foods and beverages, which have a longer shelf life. Biotechnology helps in improving the edibility, texture, and storage of the food; in preventing the attack of the food, mainly dairy, by the virus like bacteriophage  producing antimicrobial effect to destroy the unwanted microorganisms in food that cause toxicity  to prevent the formation  and degradation of other toxins and anti-nutritional elements present naturally in food. An entire branch of biotechnology, known as white biotechnology is devoted to this. It uses living cells—from yeast, moulds, bacteria and plants—and enzymes to synthesize products that are easily degradable require less energy and create less waste during their production. It includes set of physical, chemical or microbiological methods and techniques used to transmute raw ingredients into food and its transformation into other forms in food processing industry. Food technology (national diploma) is the scientific study of the large-scale production and preservation of foods as well as the development and analysis of foodstuffs in industrial food processing facilities. The Food Industry is a complex, global collective of diverse businesses that supply most of the food consumed by the world population. Only subsistence farmers, those who survive on what they grow, and hunter-gatherers can be considered outside of the scope of the modern food industry.
 
 
 
15th World Congress on Biotechnology and Biotech Industries Meet, March 20-22, 2017 at Rome, Italy; Biotechnology 2017, August 21-23, 2017 at Chicago, USA; 17th Euro Biotechnology Congress, September 25-27, 2017 at Berlin, Germany; Global Biotechnology Congress, Oct 9-11, 2017 at Auckland, New Zealand; 15th International Pharmaceutical Microbiology and Biotechnology Conference, June 21-23, 2017 at London, UK; 2nd International Conference on Bioscience and Biotechnology, March 9-10, 2017 at Colombo, Sri Lanka; BIO World Congress on Industrial Biotechnology, July 23-26, 2017 at Montreal, Canada; BioTech 2017, June 13-17 at Prague, Czech Republic; European Federation of BiotechnologySociety for Industrial Microbiology and Biotechnology (SIMB); The Biotech Research SocietyBiotechnology and Biological Sciences Research Council (BBSRC)
 
 
 
 

 

ABOUT CONFERENCE:
 
Meetings International welcomes you to attend the International Meeting on Biotechnology which is to be held during October 9-11, 2017,Auckland, new Zealand. Special interest and theme of the conference is “Recent Advancement and Upcoming Challenges in Biotech for sustainable Bio-world”. Biotechnology Meetings 2017 Prime motto is it will cover the translational nature of biotechnological research, with emphasis on both the basic science as well as its applications in industry and academia. Presentations will include major research advances in biotechnology, business development, strategic alliances, partnering trends, product opportunities, growth business models and strategies, licensing and pharmaceutical biotechnology (e.g. vaccines, CNS, cancer, antibodies), medical biotechnology, industrial biotechnology, bioprocess engineering, protein engineering, plant and environmental technologies, transgenic plant and crops, bioremediation, and microbial diversity research.
Throughout the course of the four day conference, you will have the opportunity to both network and hear leaders from the international academic and corporate biotechnology communities.
 
WHY TO ATTEND:
 
Biotechnology Meeting 2017 conference is a multidisciplinary program with broad participation of members from around the globe focused on learning about innovations and advancements in biotechnology. This is your best opportunity to reach the largest assemblage of participants from Biotech community that is from academia, research entities, Biotech societies, related associations, and also from government agencies, exploration and production industries.
 
WHO SHOULD ATTEND AND WHOM YOU WILL MEET:
 
·         Scientists, Researchers & Technical Staff from biotech related field.
·         Professors, Students & Delegates from Department of genetics and molecular biology.CONFERENCE
 
HIGHLIGHTS:

Biotechnology
Plant Biotechnology
Animal biotechnology
Industrial biotechnology
Marine Biotechnology
Nanotechnology
Food Biotechnology
Bioinformatics
Applications of Biotechnology
Bio medical engineering
Molecular biotechnology
Pharmaceutical biotechnology
Environmental biotechnology
Market Analysis
Investor and Partnering forum 

Scope and Importance of Biotechnology

Biotechnology is a field of applied biology that involves the use of living organisms and bioprocesses in engineering, medicine, technology and other fields requiring bio-products. Modern use similar term includes genetic engineering as well as cell and tissue culture technologies. It is the integrated use of molecular biology, biochemistry and microbiology to achieve technological application of the capabilities of biological agents. Biotechnology is emerged as a science with immense potential for human welfare ranging from food processing, human health to environment protection. The field of biotechnology is constantly advancing. From finding ways to slow down the process of food spoilage, advancements in genetic engineering, to adapting organisms to clean up contaminated environments, new applications and biotechnological inventions are continuously being developed to help improve our world.

Modern biotechnology applies not only modern genetics but also advances in other sciences. However, there is a third revolution that is just emerging, which is nanotechnology. The development of techniques to visualize and manipulate atoms individually or in small clusters is opening the way to an ever-finer analysis of living systems. Nano-scale techniques are now beginning to play substantial role in the application of biotechnology.

World renowned experts and intellectuals agree that biotechnological innovation is the foundation-stone of our future, and a ‘game changer’. It is anticipated that it will underpin our economy and provide solutions to intractable problems of human and animal diseases, climate change, fuel alternatives, food security as well as improving our quality of life.

Biotech Market in Asia Pacific

Biotechnology market in 2010, between US$400 billion and US$600 billion in revenue was generated by this medium also, it is anticipated that in 2015, this online market will generate revenue between US$700 billion and US$950 billion.

Middle East: Biotechnology market is currently its trade deficit is nearly US$8 billion, its external debt market is expected to grow to nearly US$31.6 billion during the forecast period 2011-2020

Biotechnology Market in Europe:

Biotechnology and life sciences contribute to the modernisation of European industry. They are used in a variety of industrial sectors such as healthcare and pharmaceuticals, animal health, textiles, chemicals, plastic, paper, fuel, food, and feed processing. Taking advantage of biotechnology helps the EU economy grow and provides new jobs, while also supporting.

Biotechnology Market in USA:

The USA biotechnology market size was valued at USD 270.5 billion in 2013 and is expected to grow at a CAGR of 12.3% growing to the increasing demand for diagnostics and therapeutics solutions such as recombinant technology, red biotechnology, and DNA sequencing. The increasing prevalence of diseases such as cancer, hepatitis B, and other orphan disorders is expected to serve as a high-impact rendering driver for this industry in recent period. Rising government initiatives owing to high significance towards growth of the economy are expected to boost the biotechnology market growth over the forecast period.

Competitive Market Share

Major industry players are Abbott, Amgen, AstraZeneca, Biogen, Celgene, Genzyme, Johnson & Johnson, Pfizer, GlaxoSmithKline, Genentech, F. Hoffman La Roche, Novartis, Lonza and Sanofi.

Key strategies adopted by the companies to increase global biotechnology market share includes mergers and acquisitions, strategic collaborations, outsourcing R&D, and manufacturing activities. In 2015, Roche collaborated with Janus Bio therapeutics; a U.S. based Biotechnology Company to develop treatment for autoimmune disease, while Celgene acquired Quanticel, a biotechnology company to increase their focus on cancer drug discovery.

 

List of major universities in Australia and New Zealand:
University of Auckland
University of Otago
University of Canterbury
Massey University
University of Waikato
University of Queensland
University of Sydney
University of Melbourne
Australian national university
Griffith University

                                                                                                   

 

 
  • Biotechnology
  • Plant biotechnology
  • Animal biotechnology
  • Industrial biotechnology
  • Marine biotechnology
  • Food biotechnology
  • Bioinformatics
  • Applications of biotechnology
  • Bio medical technology
  • Molecular biotechnology
  • Environmental biotechnology
  • Nano technology
  • Pharmaceutical biotechnology
  • Market analysis
  • Bio ethics and Bio safety