Even Monte dei Paschi di Siena, the oldest surviving bank in the world, whose headquarters dominate the hilltop to the northwest of Valdimontone, has funded capital projects
including biotechnology research labs on the city's outskirts.
Not exact matches
It is important to state that the
Biotechnology industry does not
include companies that are involved in developing small - molecule pharmaceuticals, performing contract
research or manufacturing biological equipment.
The Bio21 Molecular Science and
Biotechnology Institute located in Melbourne, Australia, is a multidisciplinary facility that fuses traditional life sciences
research such as biology, chemistry, and genetics with some of the latest technologies
including nanotechnology, systems biology, and bioinformatics.
«Crop and livestock productivity — enhancing
research,
including biotechnology, will be essential to help overcome stresses due to climate change,» the report's authors wrote.
The
research team
including Teresa Evans, Ph.D., and Lindsay Bira, Ph.D., of UT Health San Antonio describe their results in the March issue of the journal Nature
Biotechnology.
In addition to a socially responsible mission, other advantages of working in the
biotechnology and pharmaceutical industry, as identified by survey takers, were: engaging work and being part of cutting - edge
research and development; innovative, creative, and fast - paced work; and stability in difficult economic times,
including generous salaries, benefits, and job security.
The study also
included collaborators from University of Tennessee, HudsonAlpha Institute for
Biotechnology, the DOE Joint Genome Institute, Fujian Agriculture and Forestry University, University of Nevada, University of Georgia, Northern Illinois University, University of Liverpool, University of Oxford, University of Illinois at Urbana - Champaign, Pacific Biosciences, Inc., Michigan State University, Newcastle University and Smithsonian Tropical
Research Institute.
Some degrees focus primarily on course work; the more traditional Master's
includes research and a thesis; and the newer approach mentioned by Ortega — the professional Master's degree — aims at preparing students for more specific careers, such as bioinformatics,
biotechnology, environmental geoscience, forensic chemistry, industrial mathematics, and many other options.
These highly competitive, prestigious opportunities are offered by several organizations (private and governmental),
including the Royal Society,
Biotechnology and Biological Sciences
Research Council, Leverhulme Trust, and Medical
Research Council.
Its science program in India for 2006 - 2007
includes support for collaborative
research projects in environmental science,
biotechnology, and nanotechnology.
Essential resources
include strong local
research universities and medical schools, larger corporations with R&D organizations, and regional development efforts — partnerships that have a mutual interest in seeing
biotechnology strengthen locally,» says Dibner.
In addition to Abbott and his medical school colleagues, the
research team included representatives of Oncodesign, a therapeutic molecule biotechnology company in Dijon, France; Janssen Research & Development, a New Jersey - based pharmaceutical company; andAsclepia Outsourcing Solutions, a Belgium - based medicinal chemistry
research team
included representatives of Oncodesign, a therapeutic molecule
biotechnology company in Dijon, France; Janssen
Research & Development, a New Jersey - based pharmaceutical company; andAsclepia Outsourcing Solutions, a Belgium - based medicinal chemistry
Research & Development, a New Jersey - based pharmaceutical company; andAsclepia Outsourcing Solutions, a Belgium - based medicinal chemistry company.
My qualitative postdoctoral
research project is focusing on the role of private
biotechnology companies in addressing local health needs in developing countries; it will involve travel to several countries,
including China, India, Brazil, and South Africa.
The region has a number of government - sponsored centers of excellence, with strengths in climate change and applied mathematics, for example, as well as cooperative
research centers with a range of foci,
including biotechnology, nanotechnology, and manufacturing technology.
Support for this
research included grants from the National Institutes of Health, the Welch Foundation, the Cancer Prevention Research Institute of Texas, and the Biotechnology and Biological Sciences Research
research included grants from the National Institutes of Health, the Welch Foundation, the Cancer Prevention
Research Institute of Texas, and the Biotechnology and Biological Sciences Research
Research Institute of Texas, and the
Biotechnology and Biological Sciences
Research Research Council.
The
research team
included professors Richard H. Ebright and Eddy Arnold and researchers Wei Lin, Soma Mandal, David Degen, Yu Liu, Yon W. Ebright, Shengjian Li, Feng Yu, Yu Zhang, Sukhendu Mandal, Yi Jiang, Shuang Liu, Matthew Gigliotti, and Kalyan Das from the Waksman Institute of Microbiology and Center for Advanced
Biotechnology and Medicine at Rutgers - New Brunswick and professor Nancy Connell and researcher Meliza Talaue from Rutgers New Jersey Medical School in Newark.
Funding for the joint study
included grants from the Fonds de la recherche en santé du Quebec, the
Research into Ageing programme, the Age - UK funded Disconnected Mind Project, the UK Medical
Research Council, the Scottish Funding Council, UK
Biotechnology and Biological Sciences
Research Council, Engineering and Physical Sciences
Research Council, Economic and Social
Research Council, and the Medical
Research Council.
At present, the regulation of gene drive
research does not fit within the purview of any of the U.S. agencies involved in the Coordinated Framework for the Regulation of
Biotechnology, which
includes the Food and Drug Administration, U.S. Department of Agriculture, and the U.S. Environmental Protection Agency.
In separate
research, also funded at Rothamsted by the Biotechnology and Biological Sciences Research Council, the team has been unravelling the pan-genome of F. graminearum, a reference genome that includes the genetic make - up of the pathogen and also those of its various
research, also funded at Rothamsted by the
Biotechnology and Biological Sciences
Research Council, the team has been unravelling the pan-genome of F. graminearum, a reference genome that includes the genetic make - up of the pathogen and also those of its various
Research Council, the team has been unravelling the pan-genome of F. graminearum, a reference genome that
includes the genetic make - up of the pathogen and also those of its various strains.
Caribou offers licenses to its CRISPR - Cas9 foundational IP in multiple fields
including research tools, internal
research use, diagnostics, and industrial
biotechnology.
Our Synthetic Biology Future Science Platform is positioning Australia to play a role in one of the fastest growing areas of modern science so that we can understand global developments and contribute to advances in areas
including manufacturing, industrial
biotechnology, environmental remediation, biosecurity, agriculture, and healthcare
research.
Recent college graduates with a strong science background are invited to apply for a 1 to 2 year supervised
research experience, which
includes scientific mentoring and training that provides excellent preparation for medical and graduate school or careers in
biotechnology.
The cross-license enables Caribou to develop and utilize CRISPR - Cas technology for product development in multiple fields
including human and animal therapeutics, diagnostics, industrial
biotechnology,
research tools, and certain agriculture segments.
Licenses are available from Caribou in multiple fields
including research tools, internal
research use, diagnostics, and industrial
biotechnology.
Following her PhD, Lorraine undertook
biotechnology / biomedical
research for US and EU industry (
including Berlex; Archport Ltd - Axonobel; MediSyn Ltd; MedaNova Ltd.) before returning to academia.
Its 680 members
include companies,
research institutions and universities, government groups and corporate service providers involved in
biotechnology, pharmaceuticals, medical devices and diagnostics, medical informatics and related businesses.
The conference program
included sessions on in vitro biology, molecular farming, epigenetics, gene editing, and market acceptance and benefits of
biotechnology, with a concluding session on cannabis
research.
E. Charpentier has been awarded prestigious honors
including the Paul Ehrlich and Ludwig Darmstaedter Prize 2016, French Chevalier Order de la Légion d'Honneur in 2016, World Technology Award for
Biotechnology 2015, Leibniz Prize 2016, a 2016 Vallee Visiting Professorship, the 2016 HFSP Nakasone Award, an Honorary Doctorate of the KU Leuven, the Science Award of Lower Saxony 2015, the ABRF Annual Award for Outstanding Contributions to Biomolecular Technologies 2016, the Massry Prize 2015, the Otto Warburg Medal 2016, the L'Oréal - UNESCO For Women in Science Award 2016, the Carus - Medal of the German National Academy of Sciences Leopoldina 2015, the Umeå University EC Jubilee Award in 2015, the Gruber Prize in Genetics 2015, the Princess of Asturias Award for Technical and Scientific
Research 2015, the 11th International Society for Transgenic Technologies Prize, the Hansen Family Award 2015, the 2015 Louis Jeantet Prize for Medicine, the 2015 Ernst Jung Prize for Medicine, the 2015 Breakthrough Prize in Life Sciences, the 2014 Grand Prix Jean - Pierre LeCocq, the 2014 Jacob Heskel Gabbay Award in
Biotechnology and Medicine, the 2014 Dr Paul Janssen Award, the 2014 Göran Gustafsson Prize, an Alexander von Humboldt Professorship in 2013 and the Eric K. Fernström Prize in 2011.
He has received many awards for his
research discoveries
including elected membership to ASCI (American Society of Clinical Investigation), Elected Member, Royal Society of Medicine, the RD Wright Medallion, Elected Fellow, American Association for the Advancement of Science, the Eric Susman Prize in Medicine, Advance Global Australian Award (
Biotechnology), a Doctor of Medical Sciences, HonorisCausa, from the University of Melbourne, and awards from Susan G. Komen (Light of Life award, Jamie Brooke Lieberman Award).
The team now
includes many talented individuals like
Biotechnology Center scientists C. Dustin Rubinstein, Kathy Krentz and Michael Sussman, along with Jamie Reichert and his team at the Swine
Research and Teaching Center.
«The misconception most frequently identified in the researchersâ $ ™ analysis of student essays was broadly defined into the category of â $ œgenetic technologiesâ $ (17.2 %), these responses displayed incomplete understanding of the complexity of scientific
research,
including biotechnology and genetic engineering.
Prof. Su's current
research fields
include the design, the synthesis, the property study and the molecular engineering of nanostructures and highly organized and hierarchically self - assembled porous materials, bio-integrated living and bio-inspired materials
including leaf - like materials by the immobilization of living organisms and biomaterials for catalysis, photocatalysis, CO2 reduction and water splitting, artificial photosynthesis, nanotechnology,
biotechnology, information technology, energy storage and conversion, cell therapy and biomedical applications.
In addition to Cell Press and Trends journals, Elsevier publishes many life science and
biotechnology journals, which
include Drug Discovery Today, Molecular Oncology, Stem Cell
Research, Journal of Molecular Biology, The International Journal of Biochemistry & Cell Biology, among others.
The SMA Foundation has been instrumental in raising awareness and supporting ground breaking SMA projects in
biotechnology, government and academia which will advance translational
research overall,
including the efforts underway at NIH.
The SBIR grant is supported by Senators Susan Collins (R - ME) and Angus S. King Jr. (I - ME), who have been advocates of federal initiatives to build a strong science and technology sector,
including legislation to promote
biotechnology research, development and manufacturing, and to protect intellectual property.
My
research has been always implementing inter-discipline approaches,
including bioinformatics (genomics), biochemistry, innovative
biotechnologies, genetics and molecular biology.
SIX (6) stand - alone lessons for days when there is a substitute teacher
including: a. Lesson Plan: Creative Writing Using MS Word b. Lesson Plan: Exploring a Career of Interest (MS PowerPoint, MS Publisher or Web 2.0 tools) c. Lesson Plan: Famous Engineer
Research Project (MS PowerPoint, MS Publisher or Web 2.0 tools) d. Lesson Plan: Web Scavenger Hunt — Internet Technology (MS Word)--
includes answer key e. Lesson Plan: Issues in
Biotechnology (MS PowerPoint, MS Publisher or Web 2.0 tools) f. Lesson Plan: Robotics Applications (MS PowerPoint) 3.
Distilling the most radical accomplishments being made in labs worldwide,
including gene therapy, genetic engineering, stem cell
research, life extension, brain - computer interfaces, and cloning, More Than Human offers an exciting tour of the impact
biotechnology will have on our lives.
The Cornell University
Biotechnology Resource Center (BRC)- Provides an array of shared
research resources and services
including fee - for - service and collaborative
research, technology testing and development, and educational components.
The Sierra Leone Journal of Biomedical
Research publishes papers in all fields of Medicine and Allied Health Sciences
including Basic Medical Sciences, Clinical Sciences, Dental Sciences, Behavioural Sciences, Biomedical Engineering, Molecular Biology, Pharmaceutical Sciences,
Biotechnology in relation to Medicine, Environment and Health, Nursing Sciences, Health Education and Primary Health Care.
They are modeled after the strong scientific management approaches typified by the Manhattan Project, the Lincoln Lab at MIT, which developed radar, AT&T's Bell Laboratories, which developed the transistor, as well as the successful DOE Bioenergy
Research Centers established during the Bush Administration to pioneer advanced techniques in
biotechnology,
including biofuels.
Professor Ogbogu's teaching and
research interests
include health law, law and bioethics, law and
biotechnology, and the legal history of biomedicine, public health and health care policies.
With respect to his life sciences practice, Mr. Bauer regularly advises pharmaceutical and
biotechnology clients on a range of transactional matters,
including complex licensing arrangements, product and intellectual property acquisition agreements,
research and development collaborations, commercialization agreements, marketing and co-promotion agreements and supply and distribution arrangements.
Our lawyers have expertise in
biotechnology patents, licensing
biotechnology innovation, biological material transfer contracts, confidentiality agreements and sponsored
research agreements, litigation and dispute resolution, designing around patents and regulatory approvals of new drugs (
including biologics) and foods.
Gary's
research interests
include the use of genetic information in environmental regulation, risk and the precautionary principle, legal aspects of personalized medicine, and regulation of emerging technologies such as nanotechnology, neuroscience and
biotechnology.
They
include biotechnology, pharmaceutical, and life science companies as well as
research institutions, software companies, consumer product companies, original equipment manufacturing companies, and more.
They have offices across the globe (e.g. Dublin, UK, Switzerland, Berlin, San Diego, Tokyo, Sydney) and recruit for technical / engineering / software skills for clients
including technology companies, clinical
research organisations, educational establishments, health services, pharmaceutical,
biotechnology and life sciences companies.
Key recruitment areas are in the in Life Sciences and
include Biotechnology, Pharmaceuticals, Medical Devices, Personalized Medicine, Molecular Diagnostics, Clinical Laboratory and Clinical
Research.
Professional Duties & Responsibilities Biomedical and
biotechnology engineer with background in design of biomaterials, biosensors, drug delivery devices, microfrabrication, and tissue engineering Working knowledge of direct cell writing and rapid prototyping Experience fabricating nanocomposite hydrogel scaffolds Proficient in material analysis, mechanical, biochemical, and morphological testing of synthetic and biological materials Extensive experience in bio-imaging processes and procedures Specialized in mammalian, microbial, and viral cell culture Working knowledge of lab techniques and instruments
including electrophoresis, chromatography, microscopy, spectroscopy, PCR, Flow cytometery, protein assay, DNA isolation techniques, polymer synthesis and characterization, and synthetic fiber production Developed strong knowledge of FDA, GLP, GMP, GCP, and GDP regulatory requirements Created biocompatible photocurable hydrogels for cell immobilization Formulated cell friendly prepolymer formulation Performed surface modification of nano - particle fillers to enhance their biocompatibility Evaluated cell and biomaterial interaction, cell growth, and proliferation Designed bench - top experiments and protocols to simulate in vivo situations Designed hydrogel based microfluidic prototypes for cell entrapment and cell culture utilizing computer - aided robotic dispenser Determined various mechanical, morphological, and transport properties of photocured hydrogels using Instron, FTIR, EDX, X-ray diffraction, DSC, TGA, and DMA Assessed biocompatibility of hydrogels and physiology of entrapped cells Evaluated intracellular and extracellular reactions of entrapped cells on spatial and temporal scales using optical, confocal, fluorescence, atomic force, and scanning electron microscopies Designed various biochemical assays Developed thermosensitive PET membranes for transdermal drug delivery application using Gamma radiation induced graft co-polymerization of N - isopropyl acylamide and Acrylic acid Characterized grafted co-polymer using various polymer characterization techniques Manipulated lower critical solution temperature of grafted thermosensitive co-polymer Loaded antibiotic on grafted co-polymer and determined drug release profile with temperature Determined biomechanical and biochemical properties of biological gels isolated from marine organisms Analyzed morphological and mechanical properties of metal coated yarns using SEM and Instron Performed analytical work on pharmaceutical formulations using gas and high performance liquid chromatography Performed market
research and analysis for medical textile company Developed and implement comprehensive marketing and sales campaign