On October 15th, 2021 we celebrate Global Handwashing Day. This day aims to raise awareness for the critical importance of handwashing as well as educate and encourage people around the world to handwash with soap.
Keeping hands clean is one of the easiest, most effective, and cheapest ways we can prevent germs from spreading. This year’s Global Handwashing Day theme is, “Our future is at hand – Let’s move forward together.” As we adapt to our new normal beyond COVID-19, we need to leverage the lessons learned from our pandemic response and prioritize proper hand hygiene.
Researchers looking for new chemistry for Sanger sequencing need look no further than the ProDye™ Terminator Sequencing System, developed by Promega for use in capillary electrophoresis instruments. Sanger sequencing, or dye-terminator sequencing, has been the gold standard of DNA analysis for over 40 years and is a method commonly used in labs around the world. Even as new technologies emerge, Sanger sequencing remains the most cost-effective method for sequencing shorter pieces of DNA.
Today’s blog was written in collaboration with Julia Ashley and AJ Ridley.
This August marked the end of a frantic 10 weeks of laboratory experiments for Julia Ashley and AJ Ridley. The two are members of the University of St Andrews iGEM team and are working to develop a product called Shinescreen, a probiotic sunscreen that is safe for marine life.
“Experiments were coming along nicely until the last two weeks in the lab. We ran into trouble with some transformation experiments,” said Ridley.
The team was on the clock, with only two and a half months of access to a laboratory. Unfortunately, the team’s time ran out before they could resolve all the issues.
“We learned the realities of science that not everything goes the way you think it will,” said Ashley. “But we got some results, and we’re happy with that.”
Komodo Dragons are not only the largest lizard on Earth but also one of the most ferocious species with a fearsome reputation. The carnivorous beast can grow up to 10 feet long and can detect flesh from miles away. However, the Komodo Dragon’s serrated teeth, armored scales, and venom-laced saliva are still being outmatched by its biggest competitor: extinction.
The Komodo Dragon was previously named a “vulnerable” species by the conservation organization before being reclassified as “endangered.” There is hope that this change in status will encourage policymakers and conservation groups to strengthen and expand protections.
25 years ago, there were somewhere between 5,000 and 8,000 Komodo Dragons. Today, there are an estimated 1,380 adults and 2,000 juveniles in the wild. The Komodo Dragon is moving towards extinction.
Today’s blog was written in collaboration with Melissa Martin, a global marketing intern with Promega. She is a senior at the University of Wisconsin-Madison where she is double majoring in zoology and life sciences communication, with a certificate in environmental studies.
In the best circumstances, leftover cooking oil ends up in a recycling center and is eventually burned as a biofuel. But it is also frequently dumped down kitchen drains where it proceeds to pollute sewage, water treatment facilities, and waterways.
Is there a more valuable and less harmful way to use up waste cooking oil? A group of students at the University of Málaga thinks they have a solution that will also make science more approachable and exciting for children.
This summer, Dr. Anette Leue, Director of Digital Marketing and PR Promega GmbH, represented Promega Corporation in Sustainability Day activities sponsored by Smart Lab Connects. Dr. Leue presented Promega Corporation’s corporate responsibility activities and joined a panel discussion about global responsibility with representatives from Eppendorf, Max Planck Sustainability Network, and NIUB Sustainability Consultants.
As the Sustainability Day activities progressed, what became apparent is that calls for sustainable business growth are coming from all directions. Customers of life sciences companies are asking, “what are you doing to be a responsible company”? And, employees also are asking the same question of their employers. This interest sustainability and global responsibility by customers, employees and local communities is bringing into sharp focus the activities of companies to be good corporate citizens. Sustainability and global responsibility programs are no longer nice extras for life science companies, but rather are requirements for doing business.
“Sustainability is not a “nice to have”, but something that should be intrinsically implemented in the companies.”
Today’s guest blog was written in collaboration with Melissa Martin, a former global marketing intern with Promega. She is a senior at the University of Wisconsin-Madison where she is double majoring in zoology and life sciences communication, with a certificate in environmental studies.
Schools, businesses and organizations across the globe are increasingly implementing sustainable practices within their workspaces. From large-scale projects like installing solar arrays to behind-the-scenes initiatives like composting cafeteria food waste, “going green” is a reality of the modern workplace.
But one workspace otherwise known for being cutting edge and innovative is still struggling to implement the practices and culture of sustainability.
In her role as a teaching lab coordinator at the Johns Hopkins Institute for Nanobiotechnology (INTB), Christine Duke noticed a contrast between campus-wide sustainability initiatives and research labs:
“There is something missing here. Why aren’t we doing anything in the labs?”
Scientists investigating the human immunodeficiency virus (HIV) have learned much about the retrovirus’s lifecycle, but their ultimate goals were to discover a cure and prevent infection. In the decades since HIV was discovered, basic research and pharmaceutical drug development have expanded the antiviral toolbox, but these HIV treatments do not provide a functional cure, only manage the infection. However, two techniques may offer a potential cure for HIV infection using CRISPR and a possible vaccine using mRNA.
Soon after Amanda Capes-Davis started working with CellBank Australia, she received a request from an exasperated graduate student:
This cell line was handed down to me for my project, but I’m getting strange experimental results with the cells.Can you authenticate the cell line?
After performing genetic analyses, Capes-Davis soon had the answer to the student’s experimental woes: the cells did not come from the human tissue type the student was studying. They weren’t even human—they were mouse cells.
“She’d been given this cell line that was behaving differently than expected, and people thought ‘wow, this is an exciting new variant,’ it could tell her more about a particular disease,” Capes-Davis said. “But no, it was a more sinister reason, unfortunately.”
The global COVID-19 pandemic has changed the entire conference and tradeshow industry. Although plans for many in-person conferences were paused, this month the 32nd International Symposium on Human Identification offered the best of both worlds: an in-person symposium in Orlando, Florida (September 12–16), and a virtual conference where registrants could view the session recordings online. At the symposium, exhibits and poster presentations offered attendees the opportunity to reconnect in person after long absences, while various networking events gave attendees a chance to catch up and socialize.
As usual, workshops were held before and after the main symposium. In a sign of the changing times, Rachel Oefelein and Tarah Nieroda (DNA Labs International) presented a talk on the unique challenges and opportunities associated with virtual courtroom testimony.
The weekend before the symposium was marked by an event of great significance across the world: the 20th anniversary of the September 11, 2001, terrorist attacks on the World Trade Center, the Pentagon, and the attempt on the U.S. Capitol that was thwarted by the brave sacrifice of the passengers and crew on board United Airlines Flight 93. In particular, the DNA forensics community was reminded of how much technology has evolved over the years, in the efforts—still ongoing—to identify the victims of the attacks.
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