Science researchers at Emory University recently conducted a study that suggests a drug used to treat autoimmune disorders and rheumatoid arthritis may be used to help treat people with depression who haven’t had success with traditional depression medications. The study was published on September 3rd in Archives of General Psychiatry. According to researchers, inflammation is normally associated with the way the body responds to tissue damage, but persistent inflammation can affect many parts of the body, including the brain.
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Tags: Emory University, 2012, Georgia, Bioresearch product fair, Emory, science researchers, Atlanta, GA
It takes a long time for a lab science building to go from planning and fundraising, through permitting and construction and on to occupancy. In the case of the University of Washington's Molecular Engineering and Sciences Building, which is celebrating its grand opening next week, that process took 5 years and had some unexpected perks. While there's been very little upside to the down economy since 2008, it has had the effect of lowering construction costs, which means that UW Seattle's newest science building is even bigger and better than they'd originally planned because they were able to get more for their $77M.
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One of the things they got was some very thoughtfully designed labs. Though flexibility of design is important to assure future utility, research team leaders gave significant input into the design of their specific labs to make sure those labs were ideal for the type of research that would be carried out within their walls. Project architect Tim Williams, of Zimmer Gunsul Frasca, said in an interview:
“Scientists spend a lot of time in the lab. The UW faculty wanted to look at how we could make that a nicer place to be."
Here are some of the ways they made a nicer science lab building:
5-story, 90,300sf structure- Each of the four above-ground floors is divided into a laboratory half and an office half
- The basement is a 28,000sf low-vibration lab space
- Houses more than 15 faculty, 3 research centers and 4 major instrumentation centers
- Aluminum-plate shielding on the building guards against electromagnetic waves
- Natural ventilation in office spaces provided by windows that open
- Optimized ventilation in the lab spaces, replacing air 6 times per hour rather than 10
- Innovative commons spaces
- Green roof gardens
UW officials are proud of the new building, not just because it is state-of-the-art, but also because it's "state-of-the-science." Molecular engineering is a relatively new field, and the UW Molecular Engineering and Sciences Institute (MOLES, the building's primary occupant) sees its mission as exploring a new kind of engineering for the 21st Century: rather than build bridges over rivers (still a noble feat), the new molecular engineer may be building proteins that travel to specific parts of the body. He or she may follow the latest developments in chemistry, biology, physics, nanotechnology and predictive modeling; and his or her research projects will often be interdisciplinary, with colleagues from diverse fields and perhaps different institutions.
Furthermore, if life scientists often pursue basic research to understand the building blocks of life, and engineers build things and occupy themselves with practical mechanics and physical principles, the fusion of the two should have tremendous translational potential. Such is the goal of MOLES and their new collaborative workspace. Per their website:
Research at the Institute for Molecular Engineering & Sciences will be evolvable and dynamic, focusing initially on the themes of CleanTech and BioTech.
Some of the faculty scientists who will be doing research in the new MOLES facility include:
- Patrick Stayton, a professor of bioengineering
- Suzie Pun, a bioengineering associate professor
- David Baker, a biochemistry professor
- Daniel Gamelin, a chemistry professor
- Hugh Hillhouse, a chemical engineering professor
- Christine Luscombe, an associate professor of materials science and engineering
(Dr. David Baker seems to come up in our blog series with regularity. For former blogs citing his work, read the following:)
Computational Biology Scientist at UW Develops New Protein Structure
Crowdsourcing Research Challenge by UW Scientists a Game Changer?
Biotechnology Calendar, Inc. will hold 3 professional tradeshow events focusing on Washington state's bioscience technology and the research partnerships between scientists and the science equipment industry next month on these dates:
- 10/23/2012 -- Washington State University BioResearch Product Faire event, Pullman
- 10/24/2012 -- Fred Hutchinson Cancer Research Center BRPF event, Seattle
- 10/25/2012 -- University of Washington Front Line event, Seattle
For information on exhibiting at the University of Washington show in particular, and receiving a university research funding report, click here:
Biotechnology Calendar, Inc. is a full service event marketing and planning company producing on-campus, life science research tradeshows nationwide for the past 20 years. We plan and promote each event to bring the best products and services to the best research campuses across the country.
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Tags: Bioscience research, CEEM, UW, Molecular Engineering, University of Washington, Northwest, WSU, New research facilities, 2012, Biochemistry, chemistry research, Engineering, Front Line event, Energy, Seattle, new construction, construction
Chemical and biomolecular engineering researchers at the University of Pennsylvania have recently achieved something truly impressive: they've managed to dramatically improve the process of methane catalysis, by a factor of 30, and using lower temperatures. What this could mean in terms of environmental protection and energy generation is nothing less than game-changing. Natural gas production is at an all-time high in the U.S. and will replace much of our dependence on oil and coal if we can burn it efficiently and without methane pollution. Methane is also a by-product of industries such as waste management, animal farming, and oil extraction (the iconic flame at the top of an oil well is methane being released from underground), where its containment is an ongoing challenge.
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Tags: Pennsylvania, Northeast, University of Pennsylvania, UPenn, catalysts, nanotechnology, 2012, chemistry research, Philadelphia, BioResearch Product Faire Event, PA, BRPF
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Tags: Fred Hutchinson Cancer Research Center, Washington, AIDS Research, WA, evolution research, 2012, biology research, biology research scientists, BioResearch Product Faire Event, Genetics, Seattle
The word antibacterial is popping up on more and more household items as merchandisers find that consumers generally believe that chemicals designed to kill bacteria are a useful additive to a product and boost its appeal. Very often the chemical that's added is one called triclosan, and according to recently published research by a team of University of California Davis biomedical scientists, the common polychloro phenoxy phenol causes muscle impairment in animal and lab tissue models. Specifically, it limits the ability of the muscle to expand and contract. A beating heart is one example.
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Tags: CA, University of California Davis, cardiovascular research, chemical research, cell biology, California, 2012, animal science, chemistry research, BioResearch Product Faire Event, Davis, Sacramento Campus, UCD
While the NASA rover Curiosity explores the Martian surface, researchers from Washington University at St. Louis (WUSTL) are working behind the scenes, exploring the data that the rover sends back. WUSTL researchers also played a large part in getting Curiosity off the ground, literally.
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Tags: Midwest, Washington University, Missouri, WUSTL, 2012, BioResearch Product Faire Event, MO, St Louis
It's getting to the point where there's less and less relevant distinction to be made between life science and physical science research. It was clearer when one lab had petri dishes and the other had circuitboards, but what happens when you have both? That's the case in the Harvard University labs of chemist Charles Lieber and his medical school colleague Daniel Kohane, where the bio research team has successfully created living tissue embedded with tiny nanowires capable of running an electrical current so subtle that it does not harm the tissue cells. These 3D bioelectronic structures could potentially both relay complex information about what's going on inside the tissue and receive signals from an outside source such as instructions for repairs. Several news outlets are calling it cyborg tissue and envision its future use in implants, prosthetics, or even some kind of therapeutic microbot. More immediately it will most likely be used for drug testing in labs, as a precursor to animal or human trials.
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Tags: Northeast, MIT, cell biology, 2012, Biochemistry, Massachusetts, biorobotics, Cell Research, chemistry research, bioprinting, Boston, BioResearch Product Faire Event, MA, Harvard, Harvard Medical School
Research scientists at the University of North Carolina at Chapel Hill have discovered a “spray-on skin” treatment that speeds up recovery in wounds that don’t heal well on their own. The findings, published in the Lancet, showed that ulcers treated with the spray healed better than ulcers treated in other ways. According to WRAL.com, between one and two million Americans have a vein disease where leg wounds have difficulty healing. People with such wounds are at risk for infections and even amputation.
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Tags: University of North Carolina at Chapel Hill, North Carolina, Southeast, 2012, Cell Research, Front Line event, NC, research scientists, Chapel Hill, UNC-Chapel Hill, Southern Region
The big, shiny black solar panels you're used to seeing bolted onto south-facing rooftops may soon be obsolete, if researchers at UCLA's California NanoSystems Institute continue to advance solar nanoscience at their current lightspeed pace. In fact, you not only won't recognize the new technology, you won't even be able to see it -- because it will be virtually transparent. And instead of being mounted to the roof, these thin plastic flexible sheets will cover your windows and skylights, as well as smaller surfaces like the face of your smartphone or tablet. What if the sun's not shining brightly? No problem, because these polymer solar cells (PSCs) absorb mostly ultra-violet and near-infrared (NIR) light, rather than the visible light that more traditional solar technology relies upon.
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Tags: CA, University of California Los Angeles, Photonics, Solar Energy, nanotechnology, California, 2012, Los Angeles, Biochemistry, Engineering, UCLA, scientists solutions, Biotechnology Vendor Showcase, Photonic Devices, scientist solutions
A research team composed of researchers from the University of Colorado at Boulder and Yale University recently released a public demonstration of their Map of Life, a database that stores the geographic locations of the world's species. The demonstration version contains about 25,000 different species of birds, mammals, reptiles, amphibians and fish to date, but the goal is to have a complete record for every living organism on Earth.
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Tags: University of Colorado, Bioinformatics, Southwest, 2012, animal science, BioResearch Product Faire Event, CO, Boulder, UCO