#IamUWC #39;s up-and-coming scientist, Assoc Prof Ndiko Ludidi, Department of Biotechnology
After completing his PhD at UWC in 2006, Assoc Prof. Ndiko Ludidi returned to UWC, taking up a position in the Department of Biotechnology. His research focuses at the University include molecular...
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#IamUWC's up-and-coming scientist, Assoc Prof Ndiko Ludidi, Department of Biotechnology - Video
Cancer Research Breakthrough Announced by Two Biotechnology Companies
Two leading biotechnology companies, Insilico Medicine, Inc. and Champions Oncolology, Inc., have discovered an Early Warning System for colon cancer treat...
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Cancer Research Breakthrough Announced by Two Biotechnology Companies - Video
Biotechnology and its applications Part 1 - AIIMS AIPMT State CET Botany Video Lecture
AIIMS AIPMT State CET Botany Video Lectures and Study Material developed by highly experienced and dedicated faculty team of Rao IIT Academy. Visit http://www.raoiit.com or email ...
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Biotechnology and its applications Part 1 - AIIMS AIPMT State CET Botany Video Lecture - Video
Microspore - Green Biotechnology
Microspore guarda al futuro. Il suo obiettivo sostenere la tutela ambientale limitando i danni per il nostro pianeta e per i suoi abitanti. Per raggiungere tale scopo investe sulle persone,...
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Microspore - Green Biotechnology - Video
DJ FREAK .... BIOTECHNOLOGY (VIDEO PROMO)
VIDEO PROMO TRACK TAKEN FROM ... DJ FREAK -- LIFE AFTER DEATH EP (S21-019)
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DJ FREAK .... BIOTECHNOLOGY (VIDEO PROMO) - Video
Biotechnology 1
What is biotechnology.
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Biotechnology 1 - Video
Biotechnology and its Applications Part 3 - AIIMS AIPMT State CET Botany Video Lecture
AIIMS AIPMT State CET Botany Video Lectures and Study Material developed by highly experienced and dedicated faculty team of Rao IIT Academy. Visit http://www.raoiit.com or email ...
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Biotechnology and its Applications Part 3 - AIIMS AIPMT State CET Botany Video Lecture - Video
Biotechnology - Introduction - AIIMS AIPMT State CET Botany Video Lecture
AIIMS AIPMT State CET Botany Video Lectures and Study Material developed by highly experienced and dedicated faculty team of Rao IIT Academy. Visit http://www.raoiit.com or email ...
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Biotechnology - Introduction - AIIMS AIPMT State CET Botany Video Lecture - Video
Biotechnology Gallery of BITM, Kolkata
Students watching and enjoying the various exhibits of "Biotechnology Gallery"at BITM, Kolkata.
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Biotechnology Gallery of BITM, Kolkata - Video
Life Technologies, Energy Champion 2010, SDG E Energy Showcase, Biotechnology winner
SDG E honored Life Technologies, Energy Champion 2010, SDG E Energy Showcase Biotechnology winner.
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Life Technologies, Energy Champion 2010, SDG&E Energy Showcase, Biotechnology winner - Video
Laura Arias: Studying Biotechnology | RMIT University
Laura Yasica Arias Armas studies the Diploma of Laboratory Technology (Biotechnology) at RMIT University. She has a passion and vision for developing clean and sustainable food in her home...
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Stanford Course - Genetic Engineering Biotechnology
The co-evolution of genetic engineering and biotechnology in the last 30+ years has allowed for groundbreaking findings in molecular biology that have revolu...
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Stanford Course - Genetic Engineering & Biotechnology - Video
BIO-TECHNE Corp (TECH) is near the top in its industry group according to InvestorsObserver. TECH gets an overall rating of 58. That means it scores higher than 58 percent of stocks. BIO-TECHNE Corp gets a 67 rank in the Biotechnology industry. Biotechnology is number 24 out of 148 industries.
Analyzing stocks can be hard. There are tons of numbers and ratios, and it can be hard to remember what they all mean and what counts as good for a given value. InvestorsObserver ranks stocks on eight different metrics. We percentile rank most of our scores to make it easy for investors to understand. A score of 58 means the stock is more attractive than 58 percent of stocks.
Our proprietary scoring system captures technical factors, fundamental analysis and the opinions of analysts on Wall Street. This makes InvestorsObservers overall rating a great way to get started, regardless of your investing style. Percentile-ranked scores are also easy to understand. A score of 100 is the top and a 0 is the bottom. Theres no need to try to remember what is good for a bunch of complicated ratios, just pay attention to which numbers are the highest.
BIO-TECHNE Corp (TECH) stock is trading at $187.99 as of 12:50 PM on Friday, Feb 28, a loss of -$5.02, or -2.6% from the previous closing price of $193.01. The stock has traded between $186.18 and $192.94 so far today. Volume today is less active than usual. So far 126,053 shares have traded compared to average volume of 176,091 shares.
To see the top 5 stocks in Biotechnology click here.
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Industry Breakdown: Where Does BIO-TECHNE Corp (TECH) Stock Fall in the Biotechnology Field? - InvestorsObserver
€3m to support skills development in biotechnology sector
The new joint venture
Recently, University College Dublin and Elan came out with a big news which is expected to mark a new beginning in the field of biotechnology. Both of these institutions will be working together on a venture. The highlight of this venture would be its cross linking policy between both the students of business studies and science branch in the university. The venture is expected to use the fusion of application of business studies and that of science including biology and applied engineering.
How will the venture work?
The venture is expected to run for at least seven years and will cost the company more than three million euros. The investment in the university’s new science center will help open two new scholarships (post doctoral ones). And that is not all. Another announcement has been made that lectures will now be organized annually, which will be targeted towards the students of the university, helping them to develop their intellectual abilities.
This groundbreaking initiative will not only be targeted towards the development of both biotechnology and the business associated with it but will also be acting as a juncture that will allow the students of science, business management and medical branch to work together under the common umbrella of Elan.
How will it affect the students?
The people in charge in both the organizations say that the venture will benefit the students at more than one level. On one hand, the venture will allow the students of different branch of studies to work together, and on the other hand, it will allow the students to work with the best in their respected fields. It will also allow the students to learn about the ever changing and risky world of bio technology. Although this is a giant leap for those involved, the success of the venture remains to be seen in time.
Scientists at the University of Illinois say they have developed a new technique of genetic engineering for basic and applied biological research and medicine. Their work ("Programmable DNA-Guided Artificial Restriction Enzymes"), reported inACS Synthetic Biology,could open new doors in genomic research by improving the precision and adherence of sliced DNA, according to the investigators.
"Using our technology, we can create highly active artificial restriction enzymes with virtually any sequence specificity and defined sticky ends of varying length," said Huimin Zhao, Ph.,D., professor of chemical and biomolecular engineering, who leads a synthetic biology research group at the Carl R. Woese Institute for Genomic Biology at Illinois. "This is a rare example in biotechnology where a desired biological function or reagent can be readily and precisely designed in a rational manner."
Restriction enzymes cut DNA at a specific site and create a space wherein foreign DNA can be introduced for gene-editing purposes. This process is not achieved only by naturally occurring restriction enzymes; artificial restriction enzymes, or AREs, have risen to prominence in recent years. CRISPR/Cas9, a bacterial immune system used for "cut-and-paste" gene editing, and TALENs, or transcription activator-like effector nucleases, which are modified restriction enzymes, are two popular examples of such techniques.
Though useful in genetic engineering, no AREs generate defined "sticky ends"an uneven break in the DNA ladder structure that leaves complementary overhangs, improving adhesion when introducing new DNA. "If you can cleave two different DNA samples with the same restriction enzyme, the sticky ends that are generated are complementary," explained graduate student Behnam Enghiad. "They will hybridize with each other, and if you use a ligase, you can stick them together."
However, restriction enzymes themselves have a critical drawback: the recognition sequence that prompts them to cut is very short, usually only four to eight base pairs. Because the enzymes will cut anywhere that sequence appears, researchers rely on finding a restriction enzyme whose cut site appears only once in the genome of their organism or plasmid, an often difficult proposition when the DNA at hand might be thousands of base pairs long.
This problem has been partially solved simply by the sheer number of restriction enzymes discovered: more than 3600 have been characterized, and over 250 are commercially available. "Just in our freezer, for our other research, we have probably over 100 different restriction enzymes," said Enghiad. "We look through them all whenever we want to assemble something. The chance of finding the unique restriction site is so low."
"Our new technology unifies all of those restriction enzymes into a single system consisting of one protein and two DNA guides. Not only have you replaced them, but you can now target sites that no available restriction enzymes can."
The new method creates AREs through the use of an Argonaute protein (PfAgo) taken fromPyrococcus furiosus, an archeal species. Led by a DNA guide, PfAgo is able to recognize much longer sequences when finding its cut site, increasing specificity and removing much of the obstacles posed by restriction enzymes. Furthermore, PfAgo can create longer sticky ends than even restriction enzymes, a substantial benefit as compared to other AREs.
"When we started, I was inspired by a paper about a related proteinTtAgo. It could use a DNA guide to cleave DNA, but only up to 70 degrees," continued Enghiad. "DNA strands start to separate over 75 degrees, which could allow a protein to create sticky ends. If there were a protein that was active at higher temperatures, I reasoned, that protein could be used as an artificial restriction enzyme. SoI started looking for that, and what I found was PfAgo."
In addition to replacing restriction enzymes in genetic engineering processes, Enghiad and Dr. Zhao believe their technology will have broad applications in the biological research. By creating arbitrary sticky ends, PfAgo could make assembly of large DNA molecules easier and would enable cloning of large DNA molecules, such as biochemical pathways and large genes.
The application of these techniques is broad-reaching, they say, ranging from discovery of new small-molecule drugs to engineering of microbial cell factories for synthesis of fuels and chemicals to molecular diagnostics of genetic diseases and pathogens, which are the areas Dr. Zhao and Enghiad are currently exploring.
"Due to its unprecedented simplicity and programmability (a single protein plus DNA guides for targeting), as well as accessibility...we expect PfAgo-based AREs will become a powerful and indispensable tool in all restriction enzyme or nuclease-enabled biotechnological applications and fundamental biological research," predicts Dr. Zhao. "It is to molecular biology as the CRISPR technology is to cell biology."
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Revolutionizing Biotechnology with Artificial Restriction Enzymes ... - Genetic Engineering & Biotechnology News (press release)
ARE YOU READY FOR A JOB IN BIOTECHNOLOGY? Associate in Applied Science (AAS) Certificate of Specialization (CS)
Hands-on lab experience: Earn a new degree, enhance your current degree, or upgrade your professional skills.
Internship opportunities: Working for cutting-edge biotechnology companies.
A working professional? The entire program is available in evening classes over the course of two years.
State-of-the-art facilities that surpass most four-year universities:
Two degree options to choose from: Associate in Applied Science:
Certificate of Specialization:
Hands-on: Students practice lab techniques on millions of dollars worth of equipment covering a variety of bioscience niches the same equipment used by researchers at BRDG Park.
Workplace learning: Students benefit from the opportunity to gain real-world experience, and often want to extend beyond the 150-hour minimum per semester. Workplace learning is a requirement in the AAS program, but is also available to students pursuing a certificate. Youll be placed with a company based upon your research interests and current industry needs. On many occasions the companies requesting interns are interested in finding permanent employees, and internships often lead to full-time jobs.
Biotechnologists utilize cellular and molecular processes to develop technologies and products that help improve our lives and the health of our planet. If you enjoy biology, this program adds a technological aspect to your studies, preparing you for a job that will heal, fuel or feed the world:
Youll learn how to:
Faculty: Our instructors worked for industry giants like Monsanto and Sigma-Aldrich, and bring that experience to the classroom. Youll learn from seasoned professionals who offer one-on-one coaching, extended office hours, and opportunities for extra lab practice.
Stackable: If youve earned your LSLA certificate of specialization youve also earned six credit hours that will apply towards your AAS degree in Biotechnology.
Professional Networking: The BRDG Park bio-research incubator houses more than a dozen exciting start-up companies top innovators in the field and students regularly interact with industry leaders. In addition, as part of the technical skills assessment, students showcase their ability by presenting the findings of a laboratory experiment they performed in one of their courses and defending their skills to a panel of industry professionals.
More than one million students have attended STLCC. Its the largest institute of higher education in the region, and the second largest in Missouri.
To find out if STLCC is right for you, we invite you to visit. You can meet with one of our faculty members, tour the campus, and get answers to any questions you might have.CLICK HERE
Companies that have hired STLCC grads:
Monsanto Covidien Sigma-Aldrich
MOgene LC Benson Hill Biosystems Arvegenix
NewLeaf Symbiotics Gallus BioPharmaceuticals
STLCC Career and Employment Services (CES):On each campus CES offices provide services and resources to assist students and alumni in finding full-time or part-time, on-campus or off-campus, internship or co-op, permanent, seasonal or temporary employment. CES also assists employers who are looking for qualified applicants.Click Here
Job Resources
STLCC provides a top quality education at a much more affordable cost than other institutions.
Jennifer Hill, M.S. Program Coordinator Phone: 314-513-4953 Email:jhill330@stlcc.edu
Please note: Fundamentals of Chemistry I or high school chemistry with a grade of A or B within the past three years is required for entry into this program.
Credits transfer: Students who have completed the AAS also qualify for transfer to the following programs:
We invite you to meet with an STLCC advisor for one-on-one help in planning your career pathway in this growing industry. CLICK HERE
Related Programs Life Science Laboratory Assistant
STLCCs Biotechnology Advisory Committeebrings together top industry professionals. Members serve for two-year renewable terms, and STLCCS faculty works hand-in-hand with this elite group to evaluate and update our curriculum, stay up-to-date on the latest innovations, and promote networking.
Resources STEM Scholarship The St. Louis STEM Scholars (S3) Academy of St. Louis Community College-Florissant Valley (STLCC-FV) provides financial and academic support for students in challenging STEM disciplines. The purpose is to increase the number of students completing associate degrees, matriculating to four-year universities, and entering the STEM workforce.
The STLCC-FV Biology and Biotechnology Users Site Provides description of equipment, standard operating procedures, and protocols for a variety of instrumentation used in the courses at FV. Additional training and educational aids are provided for interfaces to other key applications.
Bio-linkwas created to improve and expand educational programs that prepare skilled technicians to work in high-tech fields.
TheMissouri Biotechnology Associationis an organization composed of individuals from industry, education and the private sector who are interested in the growing field of life sciences and are committed to helping educate the general public as to the importance of the scientific discoveries being made.
Location
Biotechnology classes are offered at our BRDG Park site. Students may take general education classes toward this degree at any of our four campuses, our five education centers, and online.
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Biotechnology | Home
CAREERS
To post job/internship opportunities, employers must email BioHealth.info@Maryland.gov a request to post a job/internship link which includes the link to the job description (including application instructions, and the point of contacts name, title, organization address, phone and email.)
CurrentOpenings:
Dont miss the nextindustry event! Check out our calendar for a list ofBio events.
Marylands colleges and universities offer dozens of biohealth technology certificate, two and four year and advanced degree, continuing education and specialized training programs in fields ranging from nanotechnology to biomedical engineering, biotechnology manufacturing to clinical trials project management. A sampling of life sciences related programs are listed below. For more questions, or specific training needs, please contact the Maryland Department of Commerces Office of BioHealth and Life Sciencesfor more information.
Four Year Colleges and Universities:
Community Colleges:
The continuing growth of Biotechnology companies is dependent upon the level of training and education and skills of their workers. Marylands colleges and universities not only offer a wealth of biotechnology education and training programs, but also most willcustomize training targeted to specific needs. A number of private and nonprofit organizations also offer training. These programs include:
Bio-Trac
Bio-Trac offers hands-on biotechnology training workshops that are ideal for bench and research scientists. Team-taught by active researchers at a graduate/post graduate level, Bio-Trac workshops focus on the latest relevant technologies in cell and molecular biology. Bio-Trac provides custom designed training programs for government, private and academic institutions as well as conducting 20+ offerings at the Montgomery College Bioscience Education Center in Germantown, MD.
BioTRAIN
Training modules developed with industry input from board with large industry representation. In addition to designing training modules based in industry input, BioTRAIN staff work closely with Montgomery Colleges other Biotechnology certificate degree and programs to place students.
Biotechnical Institute (BTI)
Free skill-based scientific training provided to qualified adult high school graduates who are unemployed or underemployed to become entry-level biotechnicians/lab techs. BTI partners with Baltimore CC and has a successful placement record.
The Foundation for Advanced Education in the Sciences (FAES)
An array of management and leadership development seminars and workshops provided to help the medical science and public health community to advance their professional knowledge. FAES offers 120+ courses in 12 departments.
Maryland Tech Connection (MTC), operated out of Anne Arundel Workforce Development Corporation
Biotechnology and IT training for long term unemployed blending industry-led training and work and learn strategies with strong job seeker wrap-around supports. The program serves 12 counties and the city of Baltimore, and includes 59 partners.
Companies looking to open their first office in Maryland have a wide variety of incubators (with lab space and without wet lab space)to choose from. Use our incubator search tool to find the right space for you. Several of the incubators are housed inresearch parks where they have ample room to grow and leverage the parks resources. Browse through Marylandsresearch parks for a snapshot of what is available.
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BioHealth and Life Sciences - Maryland is Open for Business
Scientist: Preparing for a Career in Biotechnology -Susan Baxter Career Girls Role Model
Susan Baxter, scientist and executive director of CSU Program for Education and Research in Biotechnology, shares valuable career guidance and life advice wi...
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Scientist: Preparing for a Career in Biotechnology -Susan Baxter Career Girls Role Model - Video
The BecA-ILRI Hub and its contribution to African agricultural biotechnology and crop improvement
5th International Conference on Next Generation Genomics and Integrated Breeding for Crop Improvement February 18-20, 2015 ICRISAT, Patancheru, India The Bec...
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The BecA-ILRI Hub and its contribution to African agricultural biotechnology and crop improvement - Video
Invest in biotechnology in Bogota
Invest in biotechnology in Bogota.
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