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Category Archives: Biotechnology

ITN Siwmansala interview on "Biotechnology for Economic Development in Sri Lanka" – Video

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ITN Siwmansala interview on "Biotechnology for Economic Development in Sri Lanka"
ITN Siwmansala discussion on Biotechnology for Economic Development in Sri Lanka with COSTI CEO Prof. Sirimali Fernando and Co-chair National Council on Biotechnology Prof. Athula Perera.

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ITN Siwmansala interview on "Biotechnology for Economic Development in Sri Lanka" - Video

Thomas Antonio talks about indigenous biotechnology at FUZE.SW 2014 – Video

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Thomas Antonio talks about indigenous biotechnology at FUZE.SW 2014
Thomas Antonio is a botanist and science coordinator at the Institute of American Indian Arts in Santa Fe. In this talk, delivered at the FUZE.SW Food and Folklore Festival in Santa Fe in September...

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Thomas Antonio talks about indigenous biotechnology at FUZE.SW 2014 - Video

Biotechnology Reagents Market Detailed Analysis & Research Report to 2018 – Video

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Biotechnology Reagents Market Detailed Analysis Research Report to 2018
Biotechnology reagents are chemical compounds or substances that are added to a system to detect and examine another substance to provide a test reading. Reagents are generally used in laboratories...

By: John Brown

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Biotechnology Reagents Market Detailed Analysis & Research Report to 2018 - Video

Returned from UK with MSc, biotech student finally found dream job in India! – Video

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Returned from UK with MSc, biotech student finally found dream job in India!
Shimme Sharma is a small town girl from Kharagpur with great aspirations in life. She graduated from Birla Institute of Technology, Mesra, India in Biotechnology. Unable to find career opportunitie...

By: Iipta PR

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Returned from UK with MSc, biotech student finally found dream job in India! - Video

Night lab from National Center for Biotechnology, Astana Kazakhstan – Video

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Night lab from National Center for Biotechnology, Astana Kazakhstan
Night lab made by National Center for Biotechnology, Astana Kazakhstan Video made for the Competition The Art of Shaking operated by Kuhner Shaker http://www.kuhner...

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Night lab from National Center for Biotechnology, Astana Kazakhstan - Video

What Is The Definition Of Biotechnology Medical Dictionary Free Online – Video

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What Is The Definition Of Biotechnology Medical Dictionary Free Online
what is the definition of medical terminology, medical dictionary, medical dictionary free download, medical terminology made easy, medical terminology song tags: "What Is The Definition...

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UTS Science in Focus: Microalgae – The green gold of biotechnology – Video

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UTS Science in Focus: Microalgae - The green gold of biotechnology
This is UTS Science TEDx style! Three short, sharp talks by three of the smartest thinkers at UTS. Topics include microalgae as a renewable energy source, how the brain destroys itself and...

By: University of Technology, Sydney

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UTS Science in Focus: Microalgae - The green gold of biotechnology - Video

Biotechnology – Academic Majors (NDSU)

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Biotechnology is an interdisciplinary field that uses a combination of biology and technology to design and produce new molecules, plants, animals and microorganisms with improved characteristics. Biotechnology offers seemingly unlimited opportunities to combine genes from related or unrelated species to produce useful organisms with desirable properties that were not previously found in nature.

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Biotechnology may be thought of as a collection of technologies using animal and/or plant cells, biological molecules, molecular biology processes and genetic engineering for applications in medicine, agriculture and the pharmaceutical industry. The technologies include the use of recombinant DNA for gene cloning and gene transfers between organisms; culture of plant and animal cells and tissues; fusion of animal cells or plant protoplast; the regeneration of whole plants from single cells and the large-scale fermentation processes that use some of these novel organisms for the production of pharmaceuticals, diagnostic tests for diseases, feed additives, enzymes and hormones.

Examples of successful biotechnology include the development of crop plants that are resistant to herbicides or insects, the production of human growth hormone and insulin by genetically engineered bacteria and the development of unique vaccines.

The biotechnology program is offered through both the College of Agriculture, Food Systems, and Natural Resources and the College of Science and Mathematics and leads to a Bachelor of Science degree.

The recommended course of study includes both the education in science and mathematics, as well as introduction to the special skills that are needed to enter the rapidly expanding and changing field of biotechnology. In addition to the required courses, students may select from a variety of specialized elective science courses to help develop a particular area of interest. Students majoring in biotechnology are required to perform a research project in the laboratory of a faculty advisor. The results of the research project are incorporated into a senior thesis and presented at the Biotechnology Seminar.

Biotechnology students must maintain at least a 2.5 overall grade point average (GPA) after 60 credits in order to remain in the program.

A faculty advisor is assigned to each student to assist in scheduling, registration and career development. Faculty in each of the cooperating life-science departments have been identified to serve as academic and research advisors for students who select the biotechnology major. The faculty advisor and the director of the biotechnology program regularly review the progress of each student.

The faculty who advise, teach and serve as research mentors for the biotechnology program are spread among several academic departments in the College of Agriculture, Food Systems, and Natural Resources, the College of Science and Mathematics and the College of Health Professions. The departments include plant sciences; biological sciences, biology, botany and zoology; chemistry, biochemistry and molecular biology; animal and range sciences; plant pathology; veterinary and microbiological sciences; and pharmaceutical sciences. Several scientists at the NDSU Center for Nanoscale Science and Engineering and at the on-campus USDA facilities also serve as research mentors.

Laboratory facilities and specialized equipment are used for instruction and research. These include animal and plant tissue culture facilities, small animal housing, electron and confocal microscopes, automated DNA sequencing equipment, equipment for performing microarray experiments, and NDSU Core Labs. The Core Labs are shared cutting-edge research facilities and include the Advanced Imaging and Microscopy Core, Core Biology Facility, Core Synthesis and Analytical Services and the Electron Microscopy Core Laboratory, among many other state-of-the-art facilities and equipment.

Biotechnology continues to rapidly develop into new research areas. Surveys indicate there will be a continuing high demand for well-educated personnel. Job opportunities are found in life science departments in colleges and universities; private and government research institutes; food production, pharmaceutical and agri-chemical industries; and in the biotechnology industries. Graduates of this program have the educational background and laboratory experience to take advantage of any of these job opportunities. Graduates of the biotechnology program are now successful and productive scientists at pharmaceutical, agri-chemical and biotechnology companies, and at government and private research institutions throughout the country.

The majority (approximately 60 percent) of graduates from the biotechnology program choose to continue their education in graduate or professional schools. Graduates of the biotechnology program have earned masters and doctoral degrees in many diverse areas, including cellular and molecular biology, biology, microbiology, plant sciences, animal physiology, cancer biology and virology at many of the most respected universities in the United States. Graduates of our program are now established and productive professors, physicians and veterinarians.

Students entering the biotechnology program should have a strong background in mathematics, including trigonometry, biology, chemistry, preferably physics, writing and computer courses. A composite ACT score of 26 or higher is recommended.

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This sample curriculum is not intended to serve as a curriculum guide for current students, but rather an example of course offerings for prospective students. For the curriculum requirements in effect at the time of entrance into a program, consult with an academic advisor or with the Office of Registration and Records.

Van Es Hall Lab 160

Van Es Hall is located on the west side of campus on Centennial Boulevard (Campus Map)

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Biotechnology - Academic Majors (NDSU)

Best Master’s Degrees in Biotechnology 2016

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Campus Full time Part time 3-6semesters September 2016 USA New York City + 1 more

The Master of Science in Bioethics, part of Columbia Universitys Programs in Bioethics, which also include an Online Certification of Professional Achievement and Online Noncredit Courses, grounds students in historical, philosophical, legal, and social-scientific approaches and models to address bioethical challenges. [+]

Masters in Biotechnology. Issues concerning the ethical, legal, and social implications of advances in biotechnology and biomedicine are increasingly arising both in the United States and abroad. From stem cell research to healthcare reform, these topics involve critical dilemmas at the intersections of law, society, culture, public policy, philosophy, religion, economics, and history. Scientists, healthcare providers, and policy-makers confront how to approach these complex questions, yet scientific and technological advances have far outpaced our ability to understand or make key decisions about these issues. The Master of Science in Bioethics, part of Columbia Universitys Programs in Bioethics, which also include an Online Certification of Professional Achievement and Online Noncredit Courses, grounds students in historical, philosophical, legal, and social-scientific approaches and models to address bioethical challenges. The program prepares students to work in various capacities within this new and ever-growing field, and includes a concentration in global bioethics the first of its kind in the United States. Students can study with faculty from across the University and draw on the extraordinary resources of the College of Physicians and Surgeons, the Mailman School of Public Health, the schools of Law, Journalism, Nursing and International and Public Affairs, and the Arts and Sciences. Curriculum 36 points for degree completion On-campus instruction; some courses available online Part-time* or Full-time program Fall intake only 3-6 terms to complete** Masters Thesis * Enrollment in the part-time option of this program does not meet the full-time requirements for an F1 student visa. ** Three years maximum. The 36-point program is composed of six core courses, five electives chosen from the University course offerings, and a masters thesis. Students are assigned to a primary faculty advisor, with whom they work closely to design an individualized program that best meets their needs. Students may then focus, if they choose, on one of a variety of areas, including clinical ethics, research ethics, neuroethics, reproductive ethics, environmental ethics, or other realms. It is recommended that students take the core courses in a specific order - the Philosophy of Bioethics and the History of Bioethics should be taken before the other cores (or concurrently with Clinical Bioethics). Global Bioethics should be taken after the Philosophy of Bioethics, the History of Bioethics and Clinical Bioethics. Additional course work includes five electives chosen from the University course offerings (one in law or policy, one in ethics, and one in social science methods). Students are also strongly encouraged to take one in genetics and, depending on their interest, one in environmental science. These electives may be taken at any time. Students are required to complete a thesis, working closely with one of the program's core and/or affiliated faculty members, due in the student's final semester. Thesis assignments are based, as much as possible, on the student's main areas of interest within bioethics and are intended to be a serious independent work of scholarship. Topics are chosen in close consultation with the students core faculty advisor, or with members of the Advisory Board and faculty affiliates. The M.S. in Bioethics is offered on both a full and part-time basis, but either option demands a serious commitment of time and energy. Students are expected to devote significant time to completing reading and class assignments, and papers outside of class. Students may hold a full-time job simultaneously, but should bear in mind the significant demands of the program. Depending on the individual course of study, students may complete the program in one academic year or in a maximum of three years, if the program is done on a part-time basis. Of the six core courses, three are offered each fall and three are offered each spring. The core courses are not offered during the summer, but students may take electives during that time. During the academic year, core courses meet once a week on weekdays from 4:10 to 6 p.m. or evenings from 6:10 to 8 p.m. Elective courses vary depending on the semester. Students should expect to spend an average of eight hours per week on readings, or attendance at outside meetings (e.g. hospital ethics committee meetings) for each core class. The number of hours that the masters thesis will require varies widely, depending on the student, and the specific project. Some projects may entail collection of data, while others may rely on scholarly sources, and the time estimates of each of these may vary depending in part on the difficulty of locating appropriate sources. In order to receive the master's degree in Bioethics, students must complete all requirements for the degree with an overall grade point average of 3.0 (B) or better. [-]

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Best Master's Degrees in Biotechnology 2016

Master of Science in Biotechnology | Advanced Academic …

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Register for November 12 MS in Biotechnology, MS in Bioinformatics, and Certificate in Biotechnology Education Open House in Baltimore.

The Johns Hopkins MS in Biotechnology offers a comprehensive exploration of basic science, applied science, and lab science, with an industry focus. The program gives you a solid grounding in biochemistry, molecular biology, cell biology, genomics, and proteomics.

This 10-course degree program is thesis-optional, part-time, and can be completed fully online. Our curriculum will prepare you to engage in research, lead lab teams, make development and planning decisions, create and apply research modalities to large projects, and take the reins of management and marketing decisions.

Many students like the flexibility of the general degree; it allows them to tailor the coursework to meet their individual career goals. The program also offers five different concentrations: biodefense, bioinformatics, biotechnology enterprise, regulatory affairs, or drug discovery.

Onsite courses are taught during evenings or weekends at either the universitys Homewood Campus in Baltimore, MD or the Montgomery County Campus in Rockville, MD. Courses are also offered in our state-of-the-art lab.

Each year, students of the MS in Biotechnology have the opportunity to apply for a fellowship with the National Cancer Institute at NIH. This fellowship, which requires onsite research as well as onsite courses for the Molecular Targets and Drug Discovery Technologies concentration at the Montgomery Count Campus, awards students with a stipend while providing them with useful experience in the arena of cancer research. Learn more about this fellowship and apply here.

Note: We currently are not accepting applications to the online Master of Science in Biotechnology from students who reside in Kansas. Students should be aware of additional state-specific information for online programs.

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Master of Science in Biotechnology | Advanced Academic ...


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