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COVID-9 is changing. With variants from places like Britain, Brazil, and South Africa surfacing and presenting in patients around the globe, the virus that scientists are trying to trap seems to be finding ways to wiggle free. The topic has many in the scientific and health care communities concerned, and recently, the New York Times featured leading experts to help explain what is happening and what American’s need to know to stay safe and healthy. Now, Dr. Denison and Sandra Weller, a virologist at the University of Connecticut School of Medicine, are investigating whether this insight could treat people with Covid. Certain antiviral drugs such as remdesivir fight infections by serving as RNA decoys that gum up the viral replication process. But these medications don’t work as well as some had hoped for coronaviruses. One theory is that the nsp14-ExoN enzyme chucks out the errors caused by these drugs, thereby rescuing the virus. Dr. Denison and Dr. Weller, among others, are looking for drugs that would block the activity of nsp14-ExoN, allowing remdesivir and other antivirals to work more effectively. Dr. Weller likens this approach to the cocktail therapies for H.I.V., which combine molecules that act on different aspects of the virus’s replication. “We need combination therapy for coronaviruses,” she said. Dr. Weller notes that nsp14-ExoN is shared across coronaviruses, so a drug that successfully suppresses it could act against more than just SARS-CoV-2. She and Dr. Denison are still at the early stages of drug discovery, testing different molecules in cells. February 05 – New York Times The ongoing COVID-19 pandemic is seeing many different twists in turns as scientists are learning more about the virus and how we can contain its spread – and if you are a journalist looking to speak with an expert on the topic, then let us help. Sandra K. Weller is Professor and Chair in the Department of Molecular Biology and Biophysics at the University of Connecticut and is a world-renowned expert in the spread of viruses. Dr. Weller is available to speak with media – simply click on her icon now to arrange an interview today.
How the Biden Administration Can Help Save the Planet
With the inauguration of Joseph R. Biden as the 46th president of the United States came a slew of executive orders—and perhaps most notably America's reentry into the Paris Climate Accord. After the Obama administration joined the largest global cooperative agreement to limit the emission of dangerously climate-altering greenhouse gasses in 2015, the U.S. withdrew in 2017 under former president Donald Trump. Villanova University biology professor Samantha Chapman, PhD, studies how "blue carbon" solutions, like the restoration of wetlands, can contribute to slowing the harmful impact of climate change on the planet. Recently, Dr. Chapman broke down the top three things the Biden administration must do to save the planet, since we are, as she puts it, "close to some scary tipping points." #1: Pressure Brazil’s President Bolsonaro to stop the devastation of the Amazon. "The Amazon Rainforest regulates our global climate. It is imperative that through diplomacy and aid, we incentivize developing countries to preserve their intact lands and biodiversity. We can't do this without helping local communities incentivize the people living in these places to save these lands. Road building in forests is a huge cause of our planet's downward slope." #2: Invest in restoration of natural ecosystems. "We must invest resources into coastal wetlands and forests, here and abroad. USAID could be partially retooled in partnership with the United Stated Geological Survey (USGS), which already does this. These natural ecosystems will serve as natural climate solutions and be harbors for threatened species and nice places for humans to recreate. We must restore the opportunity for nature to re-invoke the necessary feedbacks that make the ecosystems work. Sometimes this involves complicated engineering, sometimes it is simpler and means giving nature space to restore. We're trying both." #3: Find ways to make people feel connected to land and nature—and value it. "This is a vague one and not one that I'm sure any administration can do. The pandemic has given me hope on this—I see so many more people out hiking, fishing, walking, and hanging out in parks. When time comes for voting on taxes, people have to remember that these state parks and preserves and even neighborhood parks cost money to staff and preserve. The U.S. has incredible land and nature and yet, in my experience, Americans value and understand it less than other countries. Some of that has to do with our frontier history. We can learn from Native Americans. Appointing Representative Deb Haaland as the secretary of the interior is one good step the Biden administration has taken in this direction." Dr. Chapman emphasizes that despite the uphill battle ahead, she remains hopeful. "Left to heal and helped to heal, the ecosystem processes that sustain our lives and those of the other amazing organisms on our planet can be restored," she notes. "Good things are happening. They just need to happen at a much larger scale."
Covering CRISPR, gene editing – and what it might mean for generations to come? Our experts can help
The two scientists who took the concept of gene editing to the forefront were recently rewarded with the Nobel Peace Prize in Chemistry. The efforts of scientists Emmanuelle Charpentier and Jennifer Doudna and the development of clustered regularly interspaced short palindromic repeats have taken a vaguely titled idea named CRISPR into the modern conversation. Since then, this process has transcended itself into medicine, agriculture and a host of other scientific applications being used around the world today. There is a lot to know about CRISPR: How does it work, what are the risks and what are the potential rewards that have yet to be discovered? There is also a lot of concern about how gene editing could transform life and future life as we know it. If you are a journalist looking to know more about CRISPR, Augusta University has the expert you need for your questions and coverage. Dr. Paul Langridge is an acclaimed scientist specializing in morphogenesis, CRISPR, signal transduction, and cell and molecular biology. He is an expert when it comes to the topics of gene editing and has used the same technologies that the Nobel winners also used in their research. Langridge is available to speak with any reporters looking to cover this topic; simply click on his icon to arrange an interview today.
The spotted lanternfly, an invasive species native to China, India and Vietnam, arrived in Pennsylvania in 2014. It is only over the past couple years, however, that the insect has gained particular notoriety. This year, the presence of spotted lanternflies has drastically increased in eastern Pennsylvania, and these pesky bugs can have dangerous effects. According to Villanova University professor of biology Vikram Iyengar, PhD, "The spotted lanternflies are back and showing no signs of going away. In fact, 12 new counties in Pennsylvania were added to the quarantine zone in 2020, which indicates that the invasive insects are spreading westward within the state." This quarantine prevents the travel of any spotted lanternflies through landscaping waste, firewood, plants and more. Reducing the spread via quarantine is vital to minimize agricultural harm, including damage to fruit-bearing trees. (Spotted lanternflies pose a considerable threat to grape and wine production throughout the country.) Per Dr. Iyengar, "The state of Pennsylvania is devoting a lot of resources to figure this out, and there have been some successes—for example, New York still has not reported spotted lanternflies, which indicates that the Pennsylvania quarantine has been somewhat effective. But there is still no solution yet." So, what's the answer? Dr. Iyengar notes that the possibility of a predator species will not combat the issue. Instead, "they will need to find some special pheromone or chemical that selectively lures spotted lanternflies into traps." Having a harsh winter this year is also key. "The fact that we had such a mild winter last year probably meant that more eggs were able to withstand the winter," said Dr. Iyengar. "A harsh winter may be our best hope, so the persistence of the spotted lanternfly may be yet another negative consequence of climate change." Another invasive species currently being tracked in Pennsylvania is the emerald ash borer. Villanova's R. Kelman Wieder, PhD, studies plant biology and believes these insects, which kill ash trees, are the next big threat to plant life in Pennsylvania. "I have lots of ash trees in my woods and they all are dead or dying," said Dr. Wieder. "My house was built in the 1830s and the huge ash tree was as old as my house." But Dr. Wieder isn't too worried. "Are we doomed? Well, yes and no. Eastern deciduous forests have been radically changed in the past by the chestnut blight and Dutch elm disease, yet we still have forests." That said, he still has some concerns for the future. "On top of this, deer munch on young trees," added Dr. Wieder. "So many Pennsylvania forests are deficient in young trees. So, in 50 to 100 years, what will happen?"
Rensselaer Team Seeks Alternative Approach to Controlling Viruses
As researchers worldwide scramble to formulate a vaccine to combat COVID-19, a team at Rensselaer Polytechnic Institute is pursuing a potentially powerful solution to pandemic control: a viral trap that is easily adapted to different classes of viruses, enabling a “plug-and-play” approach to virus detection and antiviral activity. Jonathan Dordick, an endowed professor of chemical and biological engineering at Rensselaer, and Robert Linhardt, an endowed professor of chemistry and chemical biology, said the team is exploring how their work — in the areas of viral detection, therapy, and inhibition — could be used against COVID-19 and other viruses in the future. Their team views such innovative approaches as a vital hedge against the growing threat of global pandemics. The viral trap works by mimicking the latch points on a human cell that a virus must bind to before infecting a person by disgorging its genetic instructions into the cell. In research on the Dengue virus with Xing Wang, now a professor of chemistry at the University of Illinois, recently published in Nature Chemistry, the team folded a snippet of DNA into a five-pointed star, and attached decoy latch points that align perfectly with the virus’ own molecular grappling hooks. The result was the world’s most sensitive test for Dengue, and a novel means of capturing and ultimately killing the virus. In previous research, the team demonstrated the same approach for Influenza A, and it can likely be expanded to other viruses like COVID-19. In another approach, Dordick demonstrated how enzymes incorporated into paint, can form a catalytic coating capable of killing the Influenza A Virus. The research, published in Applied Microbiology and Biotechnology, suggests enzyme systems could further be incorporated into swabs, wipes, or coatings, to target and kill various viruses, including COVID-19.
Ants and plants, a mutually beneficial relationship
Ant-plant interactions are really common in nature, and while people might most often picture ants as carrying pieces of leaves cut from tropical plants, ant behavior in the Midwest is less appreciated. Moni Berg-Binder, Ph.D., associate professor of biology at Saint Mary’s University, finds ant mediated seed dispersal, called myrmecochory, fascinating and says that the temperate deciduous forests here in North America have many examples of plants that engage with the native plant community. “In myrmecochory, these plants, often spring ephemerals, which are early blooming spring plants, produce seeds with a nutritious structure that sticks off the seed called an elaiosome,” she said. “Typically what happens is the seeds fall to the ground which is called primary dispersal. The Ants forage and find the seeds on the ground and then pick up seeds and carry them to their nest. This is secondary dispersal. Then, once they get the seeds into their nests, those seeds are brought to places where developing larvae eat the elaiosome. But the seed is unharmed.” From there, she said the seeds are then deposited in a chamber inside of their nests or they may take the seeds and put them in a refuse pile or a garbage dump just outside the nest. Ants, apparently, keep a very clean nest. And oftentimes the ground soil around ant activity, is elevated in organic matter, nitrogen, phosphorous, possibly moisture — all really good things for plants and essentially the same thing as fertilizer. So the seed flourishes. “It’s a beautiful example of mutualism,” she said. “The seed is taken and has effectively been planted inside this nest with nature’s fertilizer. The win from the ant perspective is that they received food.” Dr. Berg-Binder and her students have focused their research on a plant called bloodroot. Local ants disperse the seeds of bloodroot. Dr. Berg-Binder became interested in plant interactions while in graduate school when she became intrigued by the win-win scenario of mutualism. For her graduate work, she had been interested in conservation and how invasive species are introduced to a natural area where they did not typically belong. These invasive species can engage in mutualism with native species. She said there is much more studying to be done on the relationship native ants have with both native plants and invasive plants. Are ants helping the invasive species become more invasive? “They’re a great study system, and I find them really fascinating,” she said. Are you looking to know more about invasive species or ant and plant interactions? Or, are you a journalist covering this topic and looking to book an interview? That’s where we can help. To book an interview with Dr. Moni Berg-Binder, simply click below to access her contact information. Connect with: Moni Berg-Binder, Ph.D. Associate Professor, Biology Expertise: Invasive plant species and native plants; ecology and animal-plant interactions View profile https://expertfile.com/experts/moni.bergbinderphd/moni-bergbinder-phd
Researchers at Rensselaer Can Now 3D Print Skin With Working Blood Vessels
Researchers at Rensselaer Polytechnic Institute have developed a way to 3D print living skin, complete with blood vessels. The advancement, published online in Tissue Engineering Part A, is a significant step toward creating grafts that are more like the skin our bodies produce naturally. “Right now, whatever is available as a clinical product is more like a fancy Band-Aid,” said Pankaj Karande, an associate professor of chemical and biological engineering and member of the Center for Biotechnology and Interdisciplinary Studies (CBIS), who led this research at Rensselaer. “It provides some accelerated wound healing, but eventually it just falls off; it never really integrates with the host cells.” A significant barrier to that integration has been the absence of a functioning vascular system in the skin grafts. Karande has been working on this challenge for several years, previously publishing one of the first papers showing that researchers could take two types of living human cells, make them into “bio-inks,” and print them into a skin-like structure. Since then, he and his team have been working with researchers from Yale School of Medicine to incorporate vasculature. In this paper, the researchers show that if they add key elements — including human endothelial cells, which line the inside of blood vessels, and human pericyte cells, which wrap around the endothelial cells — with animal collagen and other structural cells typically found in a skin graft, the cells start communicating and forming a biologically relevant vascular structure within the span of a few weeks. “As engineers working to recreate biology, we’ve always appreciated and been aware of the fact that biology is far more complex than the simple systems we make in the lab,” Karande said. “We were pleasantly surprised to find that, once we start approaching that complexity, biology takes over and starts getting closer and closer to what exists in nature.” You can watch Pankaj Karande, associate professor of chemical and biological engineering, explain this research here: Pankaj Karande is an associate professor of chemical and biological engineering and member of the Center for Biotechnology and Interdisciplinary Studies (CBIS) at Rensselaer. He is available to speak with media regarding this latest development – simply click on his icon to arrange an interview.
Optimizing Expertise in the Higher Education Sector: Southern Utah University
Higher education institutions are amongst the wealthiest knowledge-based organizations when it comes to expert resources. While many of these organizations acknowledge the value of their in-house experts, they often struggle to harness their expertise and communicate their strengths to external audiences. But when higher education institutions do take steps to market their expertise, the payoff is exponential. Here’s how Southern Utah University (SUU) leveraged expertise marketing to celebrate their staff, grow their digital presence and drive close to a 10x increase in media inquiries. Embracing Expertise SUU has been acknowledged as a leading university in the U.S. Most recently, the U.S. News and World Report’s 2019 Best Colleges list ranked SUU as one of the top Regional Universities in the West and the highest-ranked public school in all of Utah. Southern Utah University President, Scott L. Wyatt, attributes these accolades to the people within his organization: “Our faculty and staff have dedicated themselves to creating the best educational experience at Southern Utah University,” said Wyatt. “This recognition acknowledges their success and the wonderful learning community they have created!” In fact, SUU is so proud of their people that their initial motivation for expertise marketing was to show their experts exactly how much they were valued. SUU’s faculty and staff bring a wealth of expertise in their professional disciplines, but they’re also deeply immersed in the university’s culture and surrounding environment – including the region’s breathtaking national parks. With this in mind, SUU set out to celebrate their experts’ professional and personal achievements through expertise marketing. Optimizing Expert Content While SUU had expert content on their website, they didn’t have a great process for structuring, organizing and publishing. “We had an Expert Directory, but it just didn’t have background structure we needed to nimbly change profiles and deliver up-to-date content,” said Kenzie Lundberg, Internal Communications Specialist at SUU. ExpertFile’s Platform gave SUU the tools they needed to manage their content, but they still needed a bit of help optimizing their expertise marketing program. They reached out to our customer success team to see how they could better leverage the ExpertFile tool and implement best practices for expertise marketing. After auditing their digital presence, we identified three main areas for SUU to focus on: Showcasing Faculty with Relevant Stories: While SUU had some expert content on their website, it wasn’t structured in a user-friendly way. ExpertFile suggested that Spotlight posts would help them make their content more accessible and encourage audiences to get in touch with their organization. Unlike a standard blog post, ExpertFile’s Spotlights enable users to connect with experts or media relation teams directly from the post while simultaneously distributing the post to the Associated Press, Dejero and ExpertFile Search. By using Spotlights in multiple areas of their website, SUU would be able to drastically improve their visibility and gain better traction with media outlets. Highlighting Specialized Areas of Expertise within SUU: SUU used the ExpertFile Platform to organize and attribute areas of expertise in their expert profiles, but our audit revealed that the topics needed to be more specific to garner audience engagement. ExpertFile recommended that SUU add areas of niche expertise to their expert profiles. For example, a biology professor might list topics like “Invertebrate Evolution” or “Cardiovascular Physiology” in addition to the term “biology.” This optimization would make it easier for audiences like journalists and media outlets to find experts on specific topics. Expanding SUU’s Digital Footprint: One of the key advantages of the ExpertFile Platform is how easy it is for organizations to improve their digital presence. For example, the ExpertFile Design Lab allows marketers to quickly create, publish and manage Expert Directories and Spotlights across various pages on their website (click links for examples). To help SUU better utilize this feature, we suggested linking to their Expert Directory and Spotlights directly from the homepage. This would make it easier for audiences to find their expert content and increase opportunities for engagement. SUU’s Results SUU took the ExpertFile Customer Success team’s advice and their results reflected just how valuable expertise can be to the bottom line. From Q1 in 2018 to Q1 in 2019, SUU went from 3,030 views and 12 media inquiries to 11,949 views and 115 media inquiries. And their success didn’t end there. SUU’s latest analysis of their expertise marketing program revealed some truly impressive results: CALmatters Feature: David Berri, professor of economics, was requested for an interview on equal pay in sports in September 2018. From the interview and stories that followed, SUU received the equivalent of $112,500 in publicity value and 25.3 million unique views. The State Journal Feature: Michael Mower, executive director of SUU Aviation, was asked to be featured in a story highlighting SUU’s partnership with Marshall University in March 2019. The story was published on The State Journal’s website and had the potential to be seen by 800,000 unique visitors. Qualtric’s X4 Conference: Ravi Roy, assistant professor of political science, was asked to join the ranks of the visionaries and leaders behind the world’s most iconic organizations and present at the 2019 X4 conference. Other presenters included President Barack Obama, Oprah Winfrey, and Sir Richard Branson. Over 15,000 people attended the conference. “I really enjoy using the ExpertFile Platform,” said Lundberg. “It’s great that I’ve been able to learn about our experts’ backgrounds – we have some really fascinating people. It’s so unique to be able to see all of their talents and to be able to highlight that for them.” Kenzie Lundberg – Internal Communications Specialist SUU The team at ExpertFile is thrilled that SUU has seen so much success from the optimization of their expertise marketing program. We can’t wait to see what the future holds for their organization and their experts. Download the Complete Guide to Expertise Marketing For a comprehensive look at how expertise marketing benefits the entire organization and drives measurable return on investment, follow the link below to download a copy of ExpertFile’s Complete Guide to Expertise Marketing: The Next Wave in Digital Strategy or download one of our tailored Guides for Corporate & Professional Services, Higher Education Institutions, Healthcare Institutions or Association & Not-for-Profits.
Lake Victoria, the largest lake on the African continent and the largest tropical lake in the world, has the potential to dry up more quickly than researchers previously realized, and the White Nile tributary (the only outlet for Lake Victoria) could disappear within a decade, according to a new study published in Earth and Planetary Science Letters. The drying up of these bodies of water, which the project’s researchers say is driven by climate change, could be devastating to large swaths of East Africa and millions of people, according to the study, “Rapid Pleistocene desiccation and the future of Africa's Lake Victoria.” Baylor University faculty members Daniel J. Peppe, Ph.D., associate professor of geosciences, and Joseph D. White, Ph.D., professor of biology in Baylor University’s College of Arts & Sciences, were part of a team of researchers led by Emily Beverly, Ph.D., assistant professor of sedimentary geology at the University of Houston. Beverly earned her doctoral degree in geology at Baylor in 2015. The research team developed a model for Lake Victoria to help understand how changes in rainfall and temperature, due to climate change, would affect the future of the lake. They discovered that relatively small changes in climate could cause lake levels to drop rapidly. “Using future climate projections, our model also predicts that at current rates of temperature change and previous rates of lake level fall, Lake Victoria could have no outlet to the White Nile within 10 years, and Kenya could lose access to the lake in less than 400 years, which would significantly affect the economic resources supplied by Lake Victoria to the East African community,” the researchers wrote. Water Budget Model Peppe said he and his colleagues developed a water budget model for Lake Victoria in Kenya that examines how changes in rainfall and temperature cause changes in water levels in the lake. “Modeling indicates Lake Victoria can transition back and forth between modern lake levels and being completely dried up in centuries to a few millennia,” Peppe said. The water budget model used information related to: The lake’s size The catchment area, which drains into the lake How much water enters the lake The flow out of the lake Modern climate to estimate lake evaporation Discharge out of the lake and the size of lake The model showed the desiccation and refilling of Lake Victoria can happen over short periods and is directly tied to the mean annual precipitation levels and associated runoff. The research team was also able to use the model to predict the effects of future climate change on Lake Victoria. “We input different climate parameters in the model based on past reconstructions and future projections to see what happened to lake levels in the past and what will happen in the future,” Peppe said. Combined observations from this new modeling and estimates of ancient precipitation indicate that Lake Victoria was likely dried up between 36,000 to 100,000 years ago, Peppe said. “As Lake Victoria dried up, this affected the dispersal patterns of early modern humans and other mammals as grasslands expanded with the retreat of the lake,” he said. Repercussions of Disappearance Peppe said the disappearance of the White Nile could have broad repercussions, including depriving Uganda of its primary source of electricity via hydropower and the water that sustains the Nile during non-flood stages. “In addition, every major port city around Lake Victoria could become landlocked in as little as 100 years. In 400 years, Kenya would have no access to the lake while Uganda and Tanzania would gain huge areas of potential farmland setting up a potentially dangerous dynamic between countries that currently fight over the lucrative fishing rights to the lake,” Peppe said. The researchers wrote that additional regional climate modeling is urgently needed to understand the effects of climate change on the region. ABOUT THE STUDY The new study, “Rapid Pleistocene desiccation and the future of Africa's Lake Victoria,” is published in the journal Earth and Planetary Science Letters. The research team was led by Emily J. Beverly, Ph.D., assistant professor of sedimentary geology at the University of Houston; Joseph D. White, Ph.D., professor of biology in Baylor University’s College of Arts & Sciences; Daniel J. Peppe, Ph.D., associate professor of geosciences in Baylor University’s College of Arts & Sciences; J. Tyler Faith, Ph.D., assistant professor of anthropology, at University of Utah; Nick Blegen, Ph.D., Royal Society Eric Shooter International Fellow, Department of Geography, University of Cambridge; and Christian A. Tryon, Ph.D., professor of anthropology, University of Connecticut. ABOUT BAYLOR UNIVERSITY Baylor University is a private Christian University and a nationally ranked research institution. The University provides a vibrant campus community for more than 17,000 students by blending interdisciplinary research with an international reputation for educational excellence and a faculty commitment to teaching and scholarship. Chartered in 1845 by the Republic of Texas through the efforts of Baptist pioneers, Baylor is the oldest continually operating University in Texas. Located in Waco, Baylor welcomes students from all 50 states and more than 90 countries to study a broad range of degrees among its 12 nationally recognized academic divisions. ABOUT THE COLLEGE OF ARTS & SCIENCES AT BAYLOR UNIVERSITY The College of Arts & Sciences is Baylor University’s oldest and largest academic division, consisting of 25 academic departments and seven academic centers and institutes. The more than 5,000 courses taught in the College span topics from art and theatre to religion, philosophy, sociology and the natural sciences. Faculty conduct research around the world, and research on the undergraduate and graduate level is prevalent throughout all disciplines. Visit www.baylor.edu/artsandsciences.
Gene therapy and the next frontier of medicine
Genetic testing today is mainstream, marketing to consumers who want to know where in Europe they came from or what types of hereditary diseases they could develop. For around $200 you can trace your family tree to learn your origins or identify genetic abnormalities that could signal disease. James Dahlman, assistant professor in the College of Engineering’s biomedical engineering department, specializes in genetics and believes these genotyping services can be helpful, as long as they are used responsibly. “If you’re going to start making medical predictions, you have to be careful,” said Dahlman. “Most people are not equipped to interpret statistics correctly, which can lead to negative predicting and ethical dilemmas. In a few years, genetic counselors will be in high demand so folks can make better decisions about their health.” Dahlman is fascinated by genetics, citing gene therapy as the most interesting field in the world. And it’s a field that he is revolutionizing through his research. Gene therapy is an experimental technique that uses genes to treat or prevent diseases, including hemophilia, Parkinson’s, cancer and HIV. It can help manage a number of diseases by leveraging genes instead of drugs or surgery. Although gene therapy shows promise, there are still risks involved, including unwanted immune system reactions or the risk of the wrong cells being targeted. That’s where Dahlman’s research comes in. Dahlman’s lab focuses on drug delivery vehicles, which are nanoparticles. The nanoparticle delivers gene therapies to the right place in the body to fight disease. It’s critical that the gene therapies only target the unhealthy cells to avoid damaging healthy ones. Dahlman is laser focused on ensuring the nanoparticles know what paths to take to reach the correct organ to start the healing process. “The issue with genetically-engineered drugs is that they don’t work unless they get to the right cell in the body,” said Dahlman. “You can have the world’s best genetic drug that's going to fix a tumor or eradicate plaque, but it’s not going to be effective unless it travels to the right organ. In my lab, we design different nanoparticles to deliver the genetically-engineered drugs to the correct location.” The field of genetic therapy is fascinating – and if you are a journalist looking to cover this topic or have questions for upcoming stories – let our experts help. James Dahlman is an Assistant Professor in the Georgia Tech BME Department. He is an expert in the area of biomedical engineering and uses molecular biology to rationally design the genetic drugs he delivers. This research is redefining the field of genetic therapy. Dr. Dahlman is available to speak with media – simply click on his icon to arrange an interview.
