Whether your first encounter was peering through the thick glass of an aquarium tank or peeking through your fingers in a darkened theater, there is something about sharks that captures our imagination. These fierce, and sometimes fearsome, creatures have existed in our oceans for over 400 million years, and survived multiple mass extinction events, including the one that killed the dinosaurs. They are not, however, the vicious, vengeful villain that some movies would have us believe. Sharks are apex predators, who play an important role in the world’s ocean ecosystem by regulating the population of prey species below them. Unfortunately, they are also part of one of the most threatened group of marine fish in the world. Of the more than 400 species of sharks that exist in our oceans today, approximately 15% are considered vulnerable, endangered or critically endangered. Continue reading
Could that once-monthly beef-flavored pill you give your dog to kill fleas and ticks save thousands of human lives in Zika virus- and malaria-infected areas of the world?
That’s the hypothesis examined in a 2018 publication “Repurposing isoxazoline veterinary drugs for control of vector-borne human diseases”, published by Miglianico, et al., in PNAS.
Vector-Borne Diseases Under Siege
Mosquito-transmitted diseases, such as malaria and Zika virus, and sand fly-transmitted leishmaniasis are major causes of mortality in sub-tropical regions. Although with a lower mortality incidence, mosquito-borne West Nile virus has spread in temperate regions such as Europe and the United States. Continue reading
We can learn a lot about the past and its people from the written records of the time. What people write and how they write it can gives us glimpses into historical events, interpersonal relationships, social standing and even social and cultural norms. From paper to papyrus to clay tablets, the surface that holds the writing can tell us things that the words cannot.
For plant-based writing surfaces, the quality of the surface or even the technique used to make it can give historians and archeologists insight into the people who used them. What more could we learn if we knew what plant, or plants, were used in the production of ancient writing material? Continue reading
Think back to your grad school days. Think about a time when you were struggling with challenges either inside or outside the lab. Maybe you dealt with failed experiments, a toxic lab culture or mental health problems. For graduate students, these have been real, everyday experiences for as long as anyone can remember. The Hello PhD podcast, hosted by Joshua Hall and Daniel Arneman, aims to address those problems. We’re excited to announce that beginning with Episode 94 (released June 11, 2018), we are now partnering with Hello PhD to promote their mission to support young scientists in training.
Hello PhD will be celebrating its third anniversary in July 2018, and in the past three years they’ve covered topics from grad school admissions to choosing a career path, and everything in between. They’ve interviewed post-docs, science communicators and students with interesting experiences to share. Their most popular episode ever, “When Research Sucks,” discusses what to do when research starts to drag you down. After 94 episodes, they still haven’t lost sight of their mission to make the grad school experience better for both current and future students. Continue reading
Late in 2017, a group here at Promega launched an exciting new assay, the NanoBRET™ Target Engagement (TE) Intracellular Kinase Assay.
It’s easy for me to call this assay exciting; I was an editor on the project team. But judging by the reviews on the SelectScience® web site, others are excited about NanoBRET™ Target Engagement Intracellular Kinase Assay too.
For a few years beginning late in 2013, warmer ocean conditions in the eastern Pacific prompted the appearance of unexpected species and toxic algal blooms that devastated others. When temperatures cooled in 2017, the marine ecosystems seemed to be returning to normal. Except for the pyrosomes. Although these previously rare organisms did start to wash up on beaches during the periods of warming, they began to appear by the millions from Oregon to Alaska that spring.
Some combination of ideal conditions led pyrosomes to multiply, dominate the ocean surface and wash up on beaches along the US and Canadian Pacific Coasts. Pyrosomes typically exist offshore, far below the surface in warm, tropical waters all over the world. Their sudden proliferation in other areas is likely due to the warm, Pacific ocean “blob,” although atypical sea currents and changes in pyrosome diet have been offered as other possible explanations.
While the appearance of pyrosomes impeded the efforts of fisherman by clogging nets and filling hooks, greater ecological effects have yet to be observed. As we celebrate World Oceans Month, pyrosomes offer a mesmerizing example of the astounding biological diversity our oceans have to offer and, perhaps, a cautionary tale of the impact climate change can have on those marine lifeforms.
The pyrosome species common in the NE Pacific, Pyrosoma atlanticum, goes by a few other colorful names. Each name reveals something captivating about these creatures. Commonly called “sea pickles” due their size, shape and bumpy texture (like a transparent cucumber), these are not single organisms, but colonies formed by hundreds or thousands of individual multicellular animals call zooids.
Implementing automated nucleic acid purification or making changes to your high-throughput (HT) workflow can be complicated and time-consuming. There are also many barriers to success such as challenging samples types and maintaining desirable downstream results that can add to the stress, not to mention actually getting the robotic instrumentation to do what you want it to. All of this makes it easy to understand why many labs avoid automating or own expensive instrumentation that goes unused. Continue reading
Happy graduation! Whether you graduated last week or twenty years ago, the experience is roughly the same. As soon as you arrive on the far side of the stage, empty diploma folder under your arm, hand still sticky from the Dean’s sweaty handshake, the reality of post-academic life sets in. Perhaps grad school is on the horizon for some and others might be busy prepping for med school. For some of us, though, our years of formal education end after four and we run off to rejoice in our newfound freedom. No more exams, group projects, late nights writing papers, disapproving professors, supervisors and mentors – done with that life forever! We didn’t even bother with the GRE, MCAT, LSAT or a single “Why [insert school]” essay. Now it’s off to enjoy the Real World, which will definitely be better than college.
I’ve found, in my one year of post-college life, that sometimes you can miss academic life. You’ll occasionally look back and think, “I didn’t know how good I had it.” In particular, those of us with a pure love of learning can find ourselves unsatisfied with our prospective learning opportunities or lack thereof. We spent college soaking up mountains of knowledge–and not just from textbooks. University life gives you access to free talks from eminent thought leaders, unrestricted access to myriad scientific journals, and plenty of people around who are eager to argue about that day’s lecture in Cell Biology or Neuroscience. After college, it’s tough to fill that void.
I work at Promega (obviously), a biotech company, so I still have access to journals and there are plenty of brilliant scientists around me. However, I’m still looking for more opportunities to learn and grow. I may be out of school, but the love of science never goes away. Here are a few of my tips for everyone receiving their hard-earned science degree this spring.
When Heather Berlin was 5 years old, she realized that, at some point in the future, she was going to die. This disturbed her so much that she couldn’t sleep all night. The next morning, she asked her father where she could store all her thoughts so they could live on after she died. There’s no way to do that, said her physician father. “What can I do to make this happen?” she asked. “Maybe become a psychiatrist?” said her dad. Decades later, she became an Assistant Professor of Psychiatry at Icahn School of Medicine at Mount Sinai. Her research focuses on interactions of the brain and mind, with the goal of treating and preventing psychiatric and neurological disorders.
Dr. Heather Berlin told this story at the International Forum on Consciousness held at the BioPharmaceutical Technology Center Institute in Madison, Wisconsin last week. This annual forum gathers scientists from around the world, all interested in understanding how our conscious and unconscious minds work. This year, the forum focused on the newest research and technology for detecting and measuring consciousness. As someone with limited knowledge in this field, my mind was blown by how much researchers have learned so far about consciousness. (No, we can’t store our thoughts in a box…yet.) Here are a few takeaways: Continue reading
In April of 2017 a profile appeared on the dating app Tinder. Describing himself as “One of a kind”, the poster was 43 years old, not in great physical shape, and yet so sought after he required around the clock body guards. His name was Sudan, and he was the last living male northern white rhino. His keepers at the Ol Pejeta Conservancy in Kenya weren’t expecting Sudan to find love. They were hoping to raise awareness of the species’ dire situation and money for the research and development of an in vitro fertilization (IVF) method for rhinos.
Northern white rhinos used to range over all or parts of Uganda, Sudan, Chad, the Democratic Republic of the Congo and the Central African Republic. In the 1960s there were an estimated 2,360 northern white rhinos left in the wild (1). Civil unrest in the region made conservation difficult, and by 2003 poaching and other pressures had reduced the number of northern white rhinos living in the wild to four individuals living in the Garamba National Park in the Democratic Republic of the Congo. There has been no sign of that wild population since 2007 (2), and they are considered extinct in the wild as of 2008. Continue reading