Category Archives: Biotechnology

Considering a Masters in Biotechnology Program or reviewing options for Masters Degrees in Biotechnology? A Masters in Biotechnology can openupexciting

Biotechnology is a challenging field that can involve a number of facets of both science and business or law. Many biotechnology master's degree programs focus on aspects of biology, cell biology, chemistry, or biological or chemical engineering. In general, biotechnology degrees involve research whether they are at a Masters or PhD level.

Scientific understanding is rapidly evolving, particularly in areas of cellular and molecular systems. Biotechnology master's students can therefore enjoy rich study opportunities particularly in fields such as genetic engineering, the Human Genome project, the production of new medicinal products, and research into the relationship between genetic malfunction and the origin of disease. These are just a few of the many areas that biotechnology students have the opportunity to explore today.

Another focus of biotechnology masters programs may be to equip students with the combination of science and business knowledge they need to help produce products and move them toward production. Today's complex business environment and government regulations require many steps and people with the ability to both understand and help produce new scientific technologies as well as get them approved and be able to market them.

Master degrees in biotechnology might prepare students to pursue careers in a variety of industries. While many students go on to further research or academic positions, there may also be some demand for biotechnologists outside of academia, both in the government and private sectors. Biotechnologists might pursue careers in anything from research to applied science and manufacturing. Those with specializations in business aspects of biotechnology may be qualified to pursue management positions within organizations attempting to produce and market new biotechnology.

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Masters in Biotechnology Programs and Degrees in Biotechnology

Biotechnology has proven to be an important tool for better sustainability and food security. It helps farmers grow more food while improving the environment. For example, biotechnology reduces the use of costly inputs and improves weed management, allowing farmers to reduce tillage for better soil, water and air quality. Today, roughly 90 percent of corn, cotton and soybeans grown in the U.S. have been improved through biotechnology, and farmers are choosing biotech traits when growing other crops such as alfalfa, sugarbeets and canola.

Despite rapid adoption by farmers and a strong scientific consensus that biotechnology does not pose health and environmental risks, regulatory burdens are slowing research and innovation of new biotech traits and are starting to reduce U.S. farmers international competitive advantage. In addition, activist groups routinely threaten the availability of new traits by blocking science-based regulatory decisions, filing lawsuits and advocating for labeling mandates.

GM crops require less water and fewer chemical applications than conventional crops, and they are better able to survive drought, weeds, and insects.

U.S. agriculture will maintain its competitive advantage in world markets only if we continue to support innovations in technology and grasp opportunities for future biotech products.

To improve regulation of biotechnology, Farm Bureau supports:

Farm Bureau encourages efforts to educate farmers to be good stewards of biotech crops to preserve accessand marketability.

Farm Bureau believes agricultural products grown using approved biotechnology should not be subject to mandatory labeling. We supportexisting FDA labeling policies and opposestate policies on biotech labeling, identification, use and availability.

On July 29, 2016 the president signed S. 764, the National Bioengineered Food Disclosure Standard, into law. While not perfect, S. 764 was a compromise that Farm Bureau endorsed. The law creates a uniform standard for the disclosure of ingredients derived from bioengineering and allows food companies to provide that information through an on-package statement, symbol or electronic disclosure. It also created a strong federal preemption provision to protect interstate commerce and prevent state-by-state labeling laws and was effective on the date of enactment. USDA has two years to develop the disclosure standards and Farm Bureau will be an active participant in the rulemaking process.

Farm Bureau supports active involvement and leadership by the U.S. government in the development of international standards for biotechnology, including harmonization of regulatory standards, testing and LLP policies.

This resource can help set the record straight on GMOs, to correct misinformation and show why biotechnology is so important to agriculture.

Benefits of Biotech Toolkit (PDF)

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Biotechnology - fb.org

3 Biotech is a quarterly, peer-reviewed open access journal published under the brand SpringerOpen.

Continuous Article Publishing (CAP)

3 Biotech will be moving to the Continuous Article Publishing (CAP) in 2016, in which newly accepted papers will be published online with volume and article numbers, shortly after receipt of authors proofs. This change will alleviate the significant backlog of accepted articles that are currently available online as "published ahead of time," but are awaiting formal publication with a volume, issue number and page numbers. To achieve a smooth transition to the CAP model, all papers that have been accepted after June 2015 have been held back and will be published with volume and article numbers from January 2016 onwards. We wish to apologize for this short delay in article processing during this important transition phase, which is designed to speed up the process from acceptance of articles to final publication without the need for articles to be placed in a "published ahead of time" waiting line. In addition, a formal rapid publication from 2016 will ensure that all articles in 3 Biotech are immediately available in indexing services for researchers.

3 Biotech publishes the results of the latest research related to the study and application of biotechnology to:

- Medicine and Biomedical Sciences - Agriculture - The Environment

The focus on these three technology sectors recognizes that complete Biotechnology applications often require a combination of techniques. 3 Biotech not only presents the latest developments in biotechnology but also addresses the problems and benefits of integrating a variety of techniques for a particular application. 3 Biotech will appeal to scientists and engineers in both academia and industry focused on the safe and efficient application of Biotechnology to Medicine, Agriculture and the Environment.

Articles from a huge variety of biotechnology applications are welcome including:

- Cancer and stem cell research - Genetic engineering and cloning - Bioremediation and biodegradation - Bioinformatics and system biology - Biomarkers and biosensors - Biodiversity and biodiscovery - Biorobotics and biotoxins - Analytical biotechnology and the human genome

3 Biotech accepts original and review articles as well as short research reports, protocols and methods, notes to the editor, letters to the editor and book reviews for publication. Up to date topical review articles will also be considered. All the manuscripts are peer-reviewed for scientific quality and acceptance.

NEW:

3Biotech hasrecently receivedits first Impact Factor and is nowcovered by a range of A&I services, including:

- Science Citation Index Expanded - Journal Citation Reports/Science Edition - Biological Abstracts - BIOSIS Previews

Best Paper Award: 3 Biotech is supported by King Abdulaziz City for Science and Technology (KACST) in Saudi Arabia. Every year KACST awards the best paper with the KACST Medal and $5,000. The editors of 3 Biotech have elected the best paper among those published in 2011-2012 and 2012-2013.

- The 2011-2012 winning paper is:

Nanocrystalline hydroxyapatite and zinc-doped hydroxyapatite as carrier material for controlled delivery of ciprofloxacin

Authors: G. Devanand Venkatasubbu and colleagues at Anna University, India.

- The 2012-2013winning paper is: Stress influenced increase in phenolic content and radical scavenging capacity of Rhodotorula glutinis CCY 20-2-26 Authors: Raj Kumar Salar and colleagues at Chaudhary Devi Lal University, India.

Related subjects Agriculture - Biomaterials - Biotechnology - Cancer Research - Cell Biology - Systems Biology and Bioinformatics

Journal Citation Reports, Thomson Reuters

Science Citation Index Expanded (SciSearch), Journal Citation Reports/Science Edition, PubMed, PubMedCentral, EMBASE, Google Scholar, CAB International, AGRICOLA, Biological Abstracts, BIOSIS, CAB Abstracts, DOAJ, Global Health, OCLC, Summon by ProQuest

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3 Biotech - a SpringerOpen journal

A Master of Science or MSc is a graduate degree with a focus in science, medicine, or engineering. The MSc in Biotechnology combines two of these disciplines, focusing on biology and chemistry along with principles of design and engineering.

Exactly what is an MSc in Biotechnology? The field of biotechnology uses living organisms to generate controlled processes or even final products. Students pursuing this degree learn about a wide range of topics. On the biological side, focuses may include genetics, microbiology, cellular biology, and biochemistry. On the design and engineering side, students may learn about subjects such as process design and genetic engineering. Some programs also allow students to focus on a subdiscipline, such as the role of bioengineering and bioscience in healthcare or food production.

This degree program prepares students for biotechnology careers by encompassing a broad range of subjects that many degree programs do not. Besides providing students with necessary knowledge, the degree coursework fosters problem solving and critical thinking skills that prepare students to take on various design and engineering challenges. Additionally, earning the degree can improve likelihood of employment as science and engineering employers often prefer candidates with graduate degrees.

The cost of a masters degree program can vary significantly, depending on the educational institution, region, and country. Anyone who is considering pursuing a Master of Science should compare various options to find a program that is financially reasonable.

Someone who has earned the MSc in Biotechnology can work in research or development in a variety of bioengineering fields. These include pharmaceutical or medical design, genetic engineering, biofuel production, and industrial biotechnology systems. Potential employers include universities, research institutions, and private companies.

Today, even advanced Master of Science degrees can be earned online. Online degrees can be a convenient option for people with busy schedules or limited access to in-person education. The online application process is streamlined, and learning about your potential options is easy. Search for your program below and contact directly the admissions office of the school of your choice by filling in the lead form.

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Best Masters of Science (MScs) in Biotechnology 2017

Session & Tracks

Track 1:Molecular Biotechnology

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 biotechnologyresults 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.

Related Conferences

11th World Congress onBiotechnology and Biotech IndustriesMeet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA; GlobalBiotechnology Congress2016, May 11th-14th 2016, Boston, MA, USA;BIO Investor Forum, October 20-21, 2015, San Francisco, USA;BIO Latin America Conference, October 14-16, 2015, Rio de Janeiro, Brazil;Bio Pharm America 20158th Annual International Partnering Conference, September 15-17, 2015, Boston, MA, USA.

Track 2:Environmental Biotechnology

The biotechnology is applied and used to study the natural environment. Environmental biotechnology could also imply that one try to harness biological process for commercial uses and exploitation. It is "the development, use and regulation of biological systems for remediation of contaminated environment and forenvironment-friendly processes(green manufacturing technologies and sustainable development). Environmental biotechnology can simply be described as "the optimal use of nature, in the form of plants, animals, bacteria, fungi and algae, to producerenewable energy, food and nutrients in a synergistic integrated cycle of profit making processes where the waste of each process becomes the feedstock for another process".

Related Conferences

11th World Congress onBiotechnology and Biotech IndustriesMeet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA; GlobalBiotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA;Biomarker Summit2016, March 21-23, 2016 San Diego, CA, USA; 14thVaccines Research & Development, July 7-8, Boston, USA;Pharmaceutical & BiotechPatent Litigation Forum, Mar 14 - 15, 2016, Amsterdam, Netherlands

Track 3:Animal Biotechnology

It improves the food we eat - meat, milk and eggs. Biotechnology can improve an animals impact on the environment. Animalbiotechnologyis the use of science and engineering to modify living organisms. The goal is to make products, to improve animals and to developmicroorganismsfor specific agricultural uses. It enhances the ability to detect, treat and prevent diseases, include creating transgenic animals (animals with one or more genes introduced by human intervention), using gene knock out technology to make animals with a specific inactivated gene and producing nearly identical animals by somatic cell nuclear transfer (or cloning).

Related Conferences

11th World Congress onBiotechnology and Biotech Industries Meet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA;Global Biotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA;Biomarker Summit2016, March 21-23, 2016 San Diego, CA, USA; 14thVaccines Research & Development, July 7-8, Boston, USA;Pharmaceutical & BiotechPatent Litigation Forum, Mar 14 - 15, 2016, Amsterdam, Netherlands; 4thBiomarkers in Diagnostics, Oct 07-08, 2015 Berlin, Germany, DEU.

Track 4:Medical Biotechnology and Biomedical Engineering

Medicine is by means of biotechnology techniques so much in diagnosing and treating dissimilar diseases. It also gives opportunity for the population to defend themselves from hazardous diseases. The pasture of biotechnology, genetic engineering, has introduced techniques like gene therapy, recombinant DNA technologyand polymerase chain retort which employ genes and DNA molecules to make adiagnosis diseasesand 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.

Related Conferences

11th World Congress onBiotechnology and Biotech Industries Meet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA;Global Biotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA;Biomarker Summit2016, March 21-23, 2016 San Diego, CA, USA; 14thVaccines Research & Development, July 7-8, Boston, USA;Pharmaceutical & Biotech Patent Litigation Forum, Mar 14 - 15, 2016, Amsterdam, Netherlands; 4thBiomarkers in Diagnostics, Oct 07-08, 2015 Berlin, Germany, DEU.

Track 5:Agricultural Biotechnology

Biotechnology is being used to address problems in all areas of agricultural production and processing. This includesplant breedingto raise and stabilize yields; to improve resistance to pests, diseases and abiotic stresses such as drought and cold; and to enhance the nutritional content of foods. Modern agricultural biotechnology improves crops in more targeted ways. The best known technique is genetic modification, but the term agricultural biotechnology (or green biotechnology) also covers such techniques asMarker Assisted Breeding, which increases the effectiveness of conventional breeding.

Related Conferences

3rd GlobalFood Safety Conference, September 01-03, 2016, Atlanta USA; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 12thBiotechnology Congress, Nov 14-15, 2016, San Francisco, USA;Biologically Active Compoundsin Food, October 15-16 2015 Lodz, Poland; World Conference onInnovative Animal Nutrition and Feeding, October 15-17, 2015 Budapest, Hungary; 18th International Conference onFood Science and Biotechnology, November 28 - 29, 2016, Istanbul, Turkey; 18th International Conference on Agricultural Science, Biotechnology,Food and Animal Science, January 7 - 8, 2016, Singapore; International IndonesiaSeafood and Meat, 1517 October 2016, Jakarta, Indonesia.

Track 6:Industrial Biotechnology and Pharmaceutical Biotechnology

Industrial biotechnology is the application of biotechnology for industrial purposes, includingindustrial fermentation. The practice of using cells such as micro-organisms, or components of cells like enzymes, to generate industrially useful products in sectors such as chemicals, food and feed, detergents, paper and pulp, textiles andbiofuels. Industrial Biotechnology offers a premier forum bridging basic research and R&D with later-stage commercialization for sustainable bio based industrial and environmental applications.

Related Conferences

11th World Congress onBiotechnology and Biotech Industries Meet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA; GlobalBiotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA;Biomarker Summit2016, March 21-23, 2016 San Diego, CA, USA; 14thVaccines Research & Development, July 7-8, Boston, USA;Pharmaceutical & BiotechPatent Litigation Forum, Mar 14 - 15, 2016, Amsterdam, Netherlands; 4thBiomarkers in Diagnostics, Oct 07-08, 2015 Berlin, Germany, DEU.

Track 8:Microbial and Biochemical Technology

Microorganisms have been exploited for their specific biochemical and physiological properties from the earliest times for baking, brewing, and food preservation and more recently for producingantibiotics, solvents, amino acids, feed supplements, and chemical feedstuffs. Over time, there has been continuous selection by scientists of special strains ofmicroorganisms, based on their efficiency to perform a desired function. Progress, however, has been slow, often difficult to explain, and hard to repeat. Recent developments inmolecular biologyand genetic engineering could provide novel solutions to long-standing problems. Over the past decade, scientists have developed the techniques to move a gene from one organism to another, based on discoveries of how cells store, duplicate, and transfer genetic information.

Related conferences

3rdGlobal Food Safety Conference, September 01-03, 2016, Atlanta USA; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 12thBiotechnology Congress, Nov 14-15, 2016, San Francisco, USA;Biologically Active Compoundsin Food, October 15-16 2015 Lodz, Poland; World Conference onInnovative Animal Nutrition and Feeding, October 15-17, 2015 Budapest, Hungary; 18th International Conference onFood Science and Biotechnology, November 28 - 29, 2016, Istanbul, Turkey; 18th International Conference on Agricultural Science, Biotechnology,Food and Animal Science, January 7 - 8, 2016, Singapore; International IndonesiaSeafood and Meat, 1517 October 2016, Jakarta, Indonesia.

Track 9:Food Processing and 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 likebacteriophage producing antimicrobial effect to destroy the unwanted microorganisms in food that cause toxicity to prevent the formation and degradation of other toxins andanti-nutritionalelements present naturally in food.

Related Conferences

11th World Congress onBiotechnology and Biotech Industries Meet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA;Global Biotechnology Congress 2016, May 11th-14th 2016, Boston, MA, USA;BIO Investor Forum, October 20-21, 2015, San Francisco, USA;BIO Latin America Conference, October 14-16, 2015, Rio de Janeiro, Brazil;Bio Pharm America 20158th Annual International Partnering Conference, September 15-17, 2015, Boston, MA, USA.

Track 10:Genetic Engineering and Molecular Biology

One kind of biotechnology is gene technology, sometimes called 'genetic engineering' or'genetic modification', where the genetic material of living things is deliberately altered to enhance or remove a particular trait and allow the organism to perform new functions. Genes within a species can be modified, or genes can be moved from one species to another. Genetic engineering has applications inmedicine, research, agriculture and can be used on a wide range of plants, animals and microorganisms. It resulted in a series of medical products. The first two commercially prepared products from recombinant DNA technology were insulin andhuman growth hormone, both of which were cultured in the E. coli bacteria.

The field of molecular biology overlaps with biology and chemistry and in particular, genetics and biochemistry. A key area of molecular biology concerns understanding how various cellular systems interact in terms of the way DNA, RNA and protein synthesis function.

Related Conferences

11th World Congress onBiotechnology and Biotech Industries Meet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA;Global Biotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA;Biomarker Summit2016, March 21-23, 2016 San Diego, CA, USA; 14thVaccines Research & Development, July 7-8, Boston, USA;Pharmaceutical & BiotechPatent Litigation Forum, Mar 14 - 15, 2016, Amsterdam, Netherlands; 4thBiomarkers in Diagnostics, Oct 07-http://world.biotechnologycongress.com/08, 2015 Berlin, Germany, DEU.

Track 11:Tissue Science and Engineering

Tissue engineering is emerging as a significant potential alternative or complementary solution, whereby tissue and organ failure is addressed by implanting natural, synthetic, orsemisynthetic tissueand organ mimics that are fully functional from the start or that grow into the required functionality. Initial efforts have focused on skin equivalents for treating burns, but an increasing number of tissue types are now being engineered, as well as biomaterials and scaffolds used as delivery systems. A variety of approaches are used to coax differentiated or undifferentiated cells, such as stem cells, into the desired cell type. Notable results includetissue-engineeredbone, blood vessels, liver, muscle, and even nerve conduits. As a result of the medical and market potential, there is significant academic and corporate interest in this technology.

Related Conferences

11th World Congress onBiotechnology and Biotech Industries Meet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 13thBiotechnology Congress, Nov 28-30, 2016, San Francisco, USA;Global Biotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA;Biomarker Summit2016, March 21-23, 2016 San Diego, CA, USA; 14thVaccines Research & Development, July 7-8, Boston, USA;Pharmaceutical & BiotechPatent Litigation Forum, Mar 14 - 15, 2016, Amsterdam, Netherlands; 4thBiomarkers in Diagnostics, Oct 07-08, 2015 Berlin, Germany, DEU.

Track 12:Nano Biotechnology

Nano biotechnology, bio nanotechnology, and Nano biology are terms that refer to the intersection of nanotechnology and biology. Bio nanotechnology and Nano biotechnology serve as blanket terms for various related technologies. The most important objectives that are frequently found inNano biologyinvolve applying Nano tools to relevantmedical/biologicalproblems and refining these applications. Developing new tools, such as peptide Nano sheets, for medical and biological purposes is another primary objective in nanotechnology.

Related Conferences

8thWorldMedicalNanotechnologyCongress& Expo during June 9-11, Dallas, USA; 6thGlobal Experts Meeting and Expo onNanomaterialsand Nanotechnology, April 21-23, 2016 ,Dubai, UAE; 12thNanotechnologyProductsExpo, Nov 10-12, 2016 at Melbourne, Australia; 5thInternationalConference onNanotechand Expo, November 16-18, 2015 at San Antonio, USA; 11thInternational Conference and Expo onNano scienceandMolecular Nanotechnology, September 26-28 2016, London, UK; 18thInternational Conference onNanotechnologyand Biotechnology, February 4 - 5, 2016 in Melbourne, Australia; 16thInternational Conference onNanotechnology, August 22-25, 2016 in Sendai, Japan; International Conference onNano scienceand Nanotechnology, 7-11 Feb 2016 in Canberra, Australia; 18thInternational Conference onNano scienceand Nanotechnology, February 15 - 16, 2016 in Istanbul, Turkey; InternationalNanotechnologyConference& Expo, April 4-6, 2016 in Baltimore, USA.

Track 13:Bioinformatics and Biosensors

Bioinformatics is the application of computer technology to the management of biological information. Computers are used to gather, store, analyze and integrate biological and genetic information which can then be applied to gene-based drug discovery and development. The science of Bioinformatics, which is the melding of molecular biology with computer science, is essential to the use of genomic information in understanding human diseases and in the identification of newmolecular targetsfor drug discovery. This interesting field of science has many applications and research areas where it can be applied. It plays an essential role in today's plant science. As the amount of data grows exponentially, there is a parallel growth in the demand for tools and methods indata management, visualization, integration, analysis, modeling, and prediction.

Related conferences

11th World Congress onBiotechnology and Biotech IndustriesMeet, July 28-29, 2016, Berlin, Germany; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, Thailand; 11thEuro Biotechnology Congress, November 07-09,2016, Alicante Spain; 12thBiotechnology Congress, Nov 14-15, 2016, San Francisco, USA;BIO IPCC Conference, Cary, North Carolina, USA; World Congress onIndustrial Biotechnology, April 17-20, 2016, San Diego, CA; 6thBio based Chemicals: Commercialization & Partnering, November 16-17, 2015, San Francisco, CA, USA; The European Forum forIndustrial Biotechnology and Bio economy, 27-29 October 2015, Brussels, Belgium; 4thBiotechnology World Congress, February 15th-18th, 2016, Dubai, United Arab Emirates; International Conference on Advances inBioprocess Engineering and Technology, 20th to 22nd January 2016,Kolkata, India; GlobalBiotechnology Congress2016, May 11th - 14th 2016, Boston, MA, USA

Track 14:Biotechnology investments and Biotech 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. Biotechnology products arise from successfulbiotechcompanies. 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 creatingrevolutionary productsand tools that impact the lives of potentially millions of people is one of the fundamental reasons why all entrepreneurs start biotechnology companies.

10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok; 11thEuroBiotechnologyCongress, November 7-9, 2016 Alicante, Spain; 11th World Congress onBiotechnology and Biotech IndustriesMeet, July 28-29, 2016, Berlin, Germany; 13thBiotechnologyCongress, November 28-30, 2016 San Francisco, USA; 10thAsia Pacific Biotech CongressJuly 25-27, 2016, Bangkok, UAE;BioInternational Convention, June 6-9, 2016 | San Francisco, CA;BiotechJapan, May 11-13, 2016, Tokyo, Japan;NANO BIOEXPO 2016, Jan. 27 - 29, 2016, Tokyo, Japan;ArabLabExpo2016, March 20-23, Dubai; 14thInternational exhibition for laboratory technology,chemical analysis, biotechnology and diagnostics, 12-14 Apr 2016, Moscow, Russia

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Biotechnology Conferences | USA Biotech events ...

Journal of Biotechnology & Biomaterials is a peer reviewed journal which publishes high quality articles reporting original research, review, commentary, opinion, rapid communication, case report etc. on all aspects of Biotechnology and Biomaterials. Content areas include Plant/Animal/Microbial Biotechnology, Applied Biotechnology, Red/Medical Biotechnology, Green/Agricultural Biotechnology, Environmental Biotechnology, Blue/Marine Biotechnology, White/Industrial Biotechnology, Food Biotechnology, Orthopedic and Dental Biomaterials, Cardiovascular Biomaterials, Ophthalmologic Biomaterials, Bioelectrodes and Biosensors, Burn Dressings and Skin Substitutes, Sutures, Drug Delivery Systems etc. This Biotechnology Journal with highest impact factor offers Open Access option to meet the needs of authors and maximize article visibility.

The journal is an academic journal providing an opportunity to researchers and scientists to explore the advanced and latest research developments in the use of living organisms and bioprocesses in engineering, technology and medicine. The Journal of Biotechnology and Biomaterials is of highest standards in terms of quality and provides a collaborative open access platform to the scientists throughout the world in the field of Biotechnology and Biomaterials. Journal of Biotechnology and Biomaterials is a scholarly Open Access journal and aims to publish the most complete and reliable source of information on the advanced and very latest research topics.

The journal is using the Editorial Manager System for quality in the peer-review process. Editorial Manager System is an online submission and review system, where authors can submit manuscripts and track their progress. Reviewers can download manuscripts and submit their opinions. Editors can manage the whole submission, review, revise & publish process. Publishers can see what manuscripts are in the pipeline awaiting publication.

The Journal assures a 21 days rapid review process with international peer-review standards and with quality reviewers. E-mail is sent automatically to concerned persons when significant events occur. After publishing, articles are freely available through online without any restrictions or any other subscriptions to researchers worldwide.

Applied Biotechnology is gives the major opportunity to study science on the edge of technology, innovation and even science itself. Applied Microbiology and Biotechnology focusses on prokaryotic or eukaryotic cells, relevant enzymes and proteins; applied genetics and molecular biotechnology; genomics and proteomics; applied microbial and cell physiology; environmental biotechnology; process and products and more.

Related Journals of Applied Biotechnology

Current Opinion in Biotechnology, Biotechnology Advances, Biotechnology for Biofuels, Journal of Bioprocessing & Biotechniques, Journal of Bioterrorism & Biodefense, Molecular Biology, Biology and Medicine, Crop Breeding and Applied Biotechnology, Applied Mycology and Biotechnology, Asian Biotechnology and Development Review, Biotechnology applications Journals, Journal of Applied Biomaterials & Fundamental Materials.

Biomaterials are commonly used in various medical devices and systems such as drug delivery systems, hybrid organs, tissue cultures, synthetic skin, synthetic blood vessels, artificial hearts, screws, plates, cardiac pacemakers, wires and pins for bone treatments, total artificial joint implants, skull reconstruction, and dental and maxillofacial applications. Among various applications, the application of biomaterials in cardiovascular system is most significant. The use of cardiovascular biomaterials (CB) is subjected to its blood compatibility and its integration with the surrounding environment where it is implanted.

Related Journals of Cardiovascular biomaterials

Journal of Biomimetics Biomaterials and Tissue Engineering, Journal of Advanced Chemical Engineering, Journal of Bioprocessing & Biotechniques, Journal of Biomaterials Science, Polymer Edition, Journal of Biomaterials Applications, Trends in Biomaterials and Artificial Organs, International Journal of Biomaterials and Journal of Biomaterials and Tissue Engineering, Cardiovascular biomaterials Journals.

Biomaterials are used daily in surgery, dental applications and drug delivery. Biomaterial implant is a construct with impregnated pharmaceutical products which can be placed into the body, that permits the prolonged release of a drug over an extended period of time. A biomaterial may also be an autograft, allograft or xenograft used as a transplant material.

Related journals of Biomaterial implants

Advanced Functional Materials, Biomaterials, Advanced healthcare materials, Journal of Biomimetics Biomaterials and Tissue Engineering, Journal of Molecular and Genetic Medicine, Journal of Phylogenetics & Evolutionary Biology, Clinical Oral Implants Research, International Journal of Oral and Maxillofacial Implants, Journal of Long-Term Effects of Medical Implants and Cochlear Implants International, Biomaterials Journals, Biomaterial implants Journals.

Animal Biotechnology covers the identification and manipulation of genes and their products, stressing applications in domesticated animals. Animals are used in many ways in biotechnology. Biotechnology provides new tools for improving human health and animal health and welfare and increasing livestock productivity. Biotechnology improves the food we eat - meat, milk and eggs. Biotechnology can improve an animals impact on the environment.

Related Journals of Animal biotechnology

Journal of Bioprocessing & Biotechniques, Journal of Molecular and Genetic Medicine, Biology and Medicine, Journal of Advanced Chemical Engineering, Animal Biotechnology, African Journal of Biotechnology, Current Pharmaceutical Biotechnology, Critical Reviews in Biotechnology and Reviews in Environmental Science and Biotechnology, Asian Journal of Microbiology Biotechnology and Environmental Sciences.

A biomaterial is any surface, matter, or construct that interacts with biological systems. The biomaterial science is the study of biomaterials. Biomaterials science encloses elements of medicine, biology, chemistry, tissue engineering and materials science. Biomaterials derived from either nature or synthesized in the laboratory using a different typrs of chemicals utilizing metallic components, polymers, ceramics or composite materials. They are oftenly used for a medical application.

Related Journals of Biomaterials

Biosensors and Bioelectronics, Journal of Bioactive and Compatible Polymers, Journal of Tissue Engineering, Journal of Biomimetics Biomaterials and Tissue Engineering, Journal of Bioterrorism & Biodefense, Fermentation Technology, Journal of Phylogenetics & Evolutionary Biology, International Journal of Nano and Biomaterials, Journal of Biomimetics, Biomaterials, and Tissue Engineering, Journal of Applied Biomaterials and Fundamental Materials, Journal of Biomaterials and Tissue Engineering and International Journal of Biomaterials.

Nanobiotechnology, nanobiology and bionanotechnology are terms that refer to the intersection of nanotechnology and biology. Bionanotechnology and nanobiotechnology serve as blanket terms for various related technologies. This discipline helps to indicate the merger of biological research with various fields of nanotechnology. Concepts enhanced through nanobiology are nanodevices, nanoparticles, and nanoscale phenomena. Nanotechnology uses biological systems as the biological inspirations.

Related Journals of Nano biotechnology

Biopolymers, Journal of the Mechanical Behavior of Biomedical Materials, Journal of Tissue Engineering and Regenerative Medicine, Journal of Bioprocessing & Biotechniques, Journal of Bioterrorism & Biodefense, Journal of Molecular and Genetic Medicine, Journal of Advanced Chemical Engineering, Journal of Nanobiotechnology, Artificial Cells, Nanomedicine and Biotechnology, IET Nanobiotechnology and Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, Australian journal of biotechnology, International Journal of Nano & Biomaterials, Nano biotechnology Journals.

Biocatalysis are used as natural catalysts, like protein enzymes, to perform chemical transformations on organic compounds. Both enzymes that have been more or less isolated and enzymes still residing inside living cells are employed for this task. Since biocatalysis deals with enzymes and microorganisms, it is historically classified separately from "homogeneous catalysis" and "heterogeneous catalysis". However, biocatalysis is simply a heterogeneous catalysis.

Related Journals of Biocatalysis

Biology and Medicine, Fermentation Technology, Journal of Advanced Chemical Engineering, Biocatalysis and Biotransformation and Biocatalysis and Agricultural Biotechnology.

Agricultural biotechnology is a collection of scientific techniques used to improve plants, animals and microorganisms. Based on an structure and characteristics of DNA, scientists have developed solutions to increase agricultural productivity. Scientists have learned how to move genes from one organism to another. This has been called genetic modification (GM), genetic engineering (GE) or genetic improvement (GI). Regardless of the name, the process allows the transfer of useful characteristics (such as resistance to a disease) into a plant, animal or microorganism by inserting genes from another organism.

Related Journals of Agricultural biotechnology

Journal of Phylogenetics & Evolutionary Biology, Journal of Molecular and Genetic Medicine, Molecular Biology, Journal of Bioprocessing & Biotechniques, Biocatalysis and Agricultural Biotechnology and Chinese Journal of Agricultural Biotechnology, Plant Biotechnology Journal, Plant Biotechnology Journals.

A biomolecule is any molecule which is present in living organisms, entails large macromolecules like proteins, lipids, polysaccharides, and nucleic acids, as well as small molecules include primary metabolites, secondary metabolites, and natural products. A common name for this class of material is biological materials. Nucleosides are molecules formed by attaching a nucleobase to a ribose or deoxyribose ring. Nucleosides can be phosphorylated by specific kinases in the cell, producing nucleotides.

Related Journals of Bio-molecules

Molecular Biology, Biology and Medicine, Journal of Molecular and Genetic Medicine, Journal of Phylogenetics & Evolutionary Biology, Biomolecules and Therapeutics, Applied Biochemistry and Biotechnology - Part B Molecular Biotechnology, Asia-Pacific Journal of Molecular Biology and Biotechnology, Bio-molecules Journals.

In developing countries, application of biotechnology to food processing is an issue of argument and discussions for a long time. Biotechnological study focuse development and improvement of customary fermentation processes. The application of Biotechnology to solve the environmental problems in the environment and in the ecosystems is called Environmental Biotechnology. It is applied and used to study the natural environment.

Related Journals of Biotechnology applications

NatureBiotechnology, Trends inBiotechnology, MetabolicEngineering, Journal of Bioprocessing & Biotechniques,Journal of Phylogenetics & Evolutionary Biology, Journal ofAdvanced Chemical Engineering, Applied Microbiology andBiotechnology, Applied Biochemistry and Biotechnology - PartA Enzyme Engineering and Biotechnology, Biotechnology and AppliedBiochemistry, Applied Biotechnology Journals, Applied Microbiologyand Biotechnology, Systems and Synthetic Biology and IET SyntheticBiology.

Industrial or white biotechnology uses enzymes and micro-organisms to make biobased products in sectors like chemicals, food and feed, detergents, paper and pulp, textiles and bioenergy (such as biofuels or biogas). It uses renewable raw materials and is one of the most promising, newest approaches towards lowering greenhouse gas emissions. Industrial biotechnology application has been proven to make significant contributions towards mitigating the impacts of climate change in these and other sectors.

Related Journals of White/industrial biotechnology

Critical Reviews in Biotechnology, Biotechnology and Bioengineering, Microbial Biotechnology, Journal of Bioprocessing & Biotechniques, Journal of Bioterrorism & Biodefense, Fermentation Technology, Molecular Biology, Journal of Phylogenetics & Evolutionary Biology, Journal of Molecular and Genetic Medicine, Chemical Sciences Journal, Industrial Biotechnology and Journal of Industrial Microbiology and Biotechnology, White/industrial biotechnology Journals.

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Considering a Masters in Biotechnology Program or reviewing options for Masters Degrees in Biotechnology? A Masters in Biotechnology can openupexciting

Biotechnology is a challenging field that can involve a number of facets of both science and business or law. Many biotechnology master's degree programs focus on aspects of biology, cell biology, chemistry, or biological or chemical engineering. In general, biotechnology degrees involve research whether they are at a Masters or PhD level.

Scientific understanding is rapidly evolving, particularly in areas of cellular and molecular systems. Biotechnology master's students can therefore enjoy rich study opportunities particularly in fields such as genetic engineering, the Human Genome project, the production of new medicinal products, and research into the relationship between genetic malfunction and the origin of disease. These are just a few of the many areas that biotechnology students have the opportunity to explore today.

Another focus of biotechnology masters programs may be to equip students with the combination of science and business knowledge they need to help produce products and move them toward production. Today's complex business environment and government regulations require many steps and people with the ability to both understand and help produce new scientific technologies as well as get them approved and be able to market them.

Master degrees in biotechnology might prepare students to pursue careers in a variety of industries. While many students go on to further research or academic positions, there may also be some demand for biotechnologists outside of academia, both in the government and private sectors. Biotechnologists might pursue careers in anything from research to applied science and manufacturing. Those with specializations in business aspects of biotechnology may be qualified to pursue management positions within organizations attempting to produce and market new biotechnology.

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Masters in Biotechnology Programs and ... - Masters PhD Degrees

Amrita School of Biotechnology, with qualified faculty including several Ph. D.s recruited from academia and industry around the world, is perfectly poised to offer students an opportunity to develop expertise and succeed in building a career in the exciting areas of biotechnology and related fields. Our cutting-edge curricula with state-of-the-art facilities for teaching and research will provide a solid foundation in the biological sciences. With a vibrant academic environment and a unique approach to learning that involves thought-provoking discussions and constant interaction among students and faculty,...Read More

The School offers three postgraduate and two undergraduate programs in biotechnology, microbiology and bioinformatics as well as research programs.Read more

The faculty, well-known and highly respected in their respective academic fraternities, is really what distinguishes School of Biotechnology. They are drawn from among the best minds in the world. This affords the school an extensive network of contacts which are instrumental in getting collaborative researches, live student projects and industry inputs so essential to quality biotechnology education. The faculty includes acclaimed scholars and award winning professors drawn from all life sciences disciplines. The eclectic blend of faculty, academicians, researchers, and professionals drawn from India and abroad...Read more

Over the years Amrita School of Biotechnology has developed working relationships with many of the best universities in the world. Strong collaboration with national and international organizations is the hallmark of all research carried out at Amrita School of Biotechnology and to this extent we have developed a broad range of international partnerships around the world. We, at Amrita, give tremendous significance to research and development of new products and technologies and with more than a hundred research projects aiming to benefit society...Read more

The School of Biotechnology is nestled in a serene campus located adjacent to the scenic backwaters of Kerala and the Arabian Sea. Despite the rigors of a life devoted to excellence in technology, creativity blossoms naturally and the spirit of selfless service adds fragrance to every event. The School has separate boarding and mess facilities... Read more

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Biotechnology | Amrita Vishwa Vidyapeetham (Amrita University)

From Wikipedia, the free encyclopedia

The Biotechnology Portal

Welcome to the Biotechnology portal. Biotechnology is a technology based on biology, especially when used in agriculture, food science, and medicine.

Of the many different definitions available, the one declared by the UN Convention on Biological Diversity is one of the broadest:

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Cloning is the process of creating an identical copy of an original. A clone in the biological sense, therefore, is a single cell (like bacteria, lymphocytes etc.) or multi-cellular organism that is genetically identical to another living organism. Sometimes this can refer to "natural" clones made either when an organism reproduces asexually or when two genetically identical individuals are produced by accident (as with identical twins), but in common parlance the clone is an identical copy by some conscious design. Also see clone (genetics). The term clone is derived from , the Greek word for "twig". In horticulture, the spelling clon was used until the twentieth century; the final e came into use to indicate the vowel is a "long o" instead of a "short o". Since the term entered the popular lexicon in a more general context, the spelling clone has been used exclusively.

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