“As many as 5 million Americans face the challenge of Alzheimer’s disease, which robs them of their memories, their independence, and ultimately, their lives. We are determined, even in a time of constrained fiscal resources, to capitalize on exciting scientific opportunities to advance understanding of Alzheimer’s biology and find effective therapies as quickly as possible.”
Tags: 2014, CA, University of Southern California, Southwest, California, USC, Los Angeles, Alzheimer's Research, Alzheimer's, BioResearch Product Faire Event, NIH funding
Reading our Science Market Update blog is a great way to stay informed of industry trends and research, funding and life science building news, but did you know that there is also a great deal of funding and life science market news available on our company news blog? We have put together a list, including links to the articles, of some recent news posted on our Life Science Company and Industry News Briefs blog available to life science sales and marketing professionals interested in staying informed of life science marketing and industry news.
Tags: 2014, University of California Los Angeles, Harvard University, Rockefeller University, University of Arizona, University of Pittsburgh, Pennsylvania, Northeast, University of Pennsylvania, UPenn, New York, UPITT, Southwest, California, Los Angeles, Alabama, University of Alabama, Southern, Massachusetts, Life Science Company and Industry News Briefs, Arizona, Boston, LAVS, Philadelphia, UAZ, RockU, BioResearch Product Faire Event, UAlab, Harvard, Birmingham, Front Line, Tucson, Pittsburgh, Stony Brook, industry news, funding news, Science Market Update, Science Researcher Update, NIH grants, life science events, SunySB
The USC Norris Comprehensive Cancer Center has been praised by scientists, researchers, and medical professionals alike since its inception in 1973 for its dedication toward a complete understanding of the most fundamental aspects of cancer, including cancer research, treatment, prevention, and education.
Tags: 2014, CA, 2013, University of Southern California, Southwest, California, USC, Los Angeles, BioResearch Product Faire Event, Front Line event
Funded in part by grants from the California Institute for Regenerative Medicine and the NIH, researchers at the University of California, San Diego have come up with a simple, easily repeated RNA-based technique of generating human induced pluripotent stem cells (iPSCs). The study was published in the August 1st edition of Cell Stem Cell. The researchers’ method has wide-ranging applications for others searching for new cell therapies and use in other stem cell studies.
Tags: 2014, CA, University of California San Diego, 2013, Stem Cells, Stem cell research, Southwest, California, San Diego, SDVS, UCSD, Biotechnology Vendor Showcase
The University of California, San Francisco was recently ranked number two in the country for receiving biomedical research grants from the NIH, and it was also the number one ranked public school in the country for receiving these grants. According to the University of California, San Francisco news page, this funding allows UCSF researchers to undertake groundbreaking studies that aim at a better understanding of cancer, diabetes, HIV, Parkinson’s, Alzheimer’s and cardiovascular disease.
Tags: 2014, CA, University of California San Francisco, 2013, University of California San Francisco Parnassus, Southwest, California, San Francisco, SFVS, Biotechnology Vendor Showcase, UCSF, UC San Francisco, Parnassus
The University of California, Riverside was recently guaranteed $15 million a year in continuous funding for the University’s much anticipated medical school when Governor Jerry Brown signed the state’s budget on June 27th. The University of California, Riverside’s medical school will be the first new public medical school on the West Coast in almost 50 years and is expected to be a powerful economic force on the region. The school will also help address the low doctor-to-patient ratio in the region.
Tags: 2014, CA, 2013, University of California Riverside, Southwest, California, University of California, BioResearch Product Faire Event, Riverside, UC Riverside, UCR
Your body's circadian clock is responsible for making sure you stay healthy, by regulating metabolism and carrying out internal housekeeping chores on a steady 24-hour schedule. About 15% of genes are controlled by your bodily clock, including some important ones in your intenstines that keep infectious bacteria like salmonella in check. Dr. Paolo Sassone-Corsi is a professor of biological chemistry at the UC Irvine School of Medicine and Director of UCI's Center for Epigenetics and Metabolism. Together with his colleague, microbiologist Manuela Raffatellu of UCI's Institute for Immunology, the Irvine bio research team has recently published an article in PNAS revealing how the immune system, specifically as it works in your intestinal track, is strongly directed by circadian rhythms. Upset that biological timing and you put yourself at greater risk of getting sick.
[Drs. Sassone-Corsi and RAffatellu, courtesy of Jocelyn Lee / University Communications at UCI]
Tags: 2014, CA, 2013, University of California Irvine, Immunology, epigenetics, Southwest, California, University of California, Immune System, BioResearch Product Faire Event, Irvine, UCI, biological clock
One of the reasons cancer is so successful and difficult to treat is that it uses the body's own systems to proliferate, thrive, and hide from attack. Bioresearch scientists out to target cancer are taking a similar approach, building tiny bio-vehicles for locating tumors that reach their destination without setting off a massive immune system alarm or flooding the whole body with toxic chemicals. A team of biochemists at the University of California San Diego led by Dr. Nathan Gianneschi has developed a nanoparticle that assumes a benign shape to travel covertly through the blood system, then, recognizing a tumor, reassembles via an enzymatic cue into a net to attach itself to the cancerous target.
Tags: 2014, CA, University of California San Diego, 2013, Nanobiotechnology, cancer research, Southwest, California, University of California, San Diego, SDVS, BioResearch Product Faire Event, UCSD, Biotechnology Vendor Showcase
As humans, our bodies have the ability to naturally regenerate both skin and hair, but we only get two sets of teeth, and that's one set more than many other mammals. Reptiles and fish, on the other hand, have the ability to regrow teeth throughout their lifetime. Though we have guessed that specialized stem cells are involved, the cellular and molecular mechanisms behind tooth renewal in these animals have not been well understood until now. A research team at the University of Southern California's Keck School of Medicine, led by Dr. Cheng-Ming Chuong, has recently published an article in PNAS detailing their study into the regrowth of alligator teeth. They chose a crocodilian model because the dentition is well-organized and implanted in sockets of the dental bone, similar to that of mammals (if more extensive) yet with the capacity for renewal. Contributors to the research included colleagues in Georgia, China, and the Louisiana Department of Wildlife and Fisheries, who presumably provided the live research subjects.
Tags: 2014, CA, 2013, University of Southern California, Regenerative Medicine, Stem cell research, Southwest, California, USC, Los Angeles, biology research, BioResearch Product Faire Event, Front Line event
Researchers at the Broad Center of Regeneration Medicine and Stem Cell Research on the Parnassus Campus of the University of California San Francisco have just published the results of two related studies involving differentiated brain cells transplanted into mice. In one case, the cells were human brain cells integrated successfully into a mouse brain; in the other, epileptic mice were cured with specialized mouse brain cells. In both studies the differentiated cells were a type of interneuron progenitor called medial ganglionic eminence (MGE) cells. Unlike other brain stem cells that can turn into any number of specialized cells, these differentiated MGE cells have a specific function, which is to inhibit signaling in overactive nerve circuits. These experiments hold promise for future treatment of neurological disorders like Parkinson’s disease, Alzheimer’s, epilepsy, and the chronic pain and spasticity caused by spinal cord injury.
Tags: 2014, CA, University of California San Francisco, 2013, University of California San Francisco Mission Bay, University of California San Francisco Parnassus, Parkinson's Disease Research, Southwest, California, University of California, brain research, San Francisco, SFVS, Biotechnology Vendor Showcase, UCSF, Parnassus, Mission Bay