Anyone who’s spent time in an academic science lab has probably heard about lab culture. Many labs boast long, rigorous working hours, while others require graduate students and postdoctoral trainees (postdocs) to meet often-unattainable experiment quotas each week. But is sheer quantity really the gold standard we want to hold ourselves to when it comes to training the next generation of scientists?

Mentoring is a vital part of training the next generation of scientists.

You may know that antioxidants can help protect your cells from oxidative damage, but do you know about selenium—an element often found in special proteins called antioxidant enzymes? Selenium is essential to your body, which means you must get it from the food you eat. But it’s a trace element so you only need a small amount to benefit from its effects. In addition to its antioxidant properties, it’s also important for reproduction, DNA synthesis, and hormone metabolism.

Antibiotics are a class of drugs that treat bacterial infections. They may seem common now, but they were discovered less than a century ago. In 1928, Alexander Fleming, a scientist studying bacteria, found that mold from his bread kept bacteria from growing. He determined that “mold juice” was able to kill different types of harmful bacteria, and he and his assistants worked to figure out what natural product in the mold was actually causing the killing. It turned out to be penicillin!

Thanks to Fleming’s discovery, doctors have been successfully treating bacterial infections with penicillin and other newer antibiotics. But in recent years, some infections that were once treatable with antibiotics no longer respond to them. Some of these infections can be treated with multiple rounds of different antibiotic treatments, but others aren’t treatable at all—even leading to death in some cases.

Credit: ACS Website.

It’s almost National Chemistry Week (NCW)! Each year, the American Chemical Society (ACS) unites scientists, undergraduate students, high school chemistry clubs, and other groups through this community-based program to reach the public—especially elementary and middle school
students—with positive chemistry messages.

“I’m most proud of how this program is truly impacting the diversity of academia by including individuals from backgrounds historically underrepresented in STEM and the biomedical research workforce,” says JoAnn Trejo, Ph.D., professor at University of California San Diego (UCSD) and director of San Diego’s Institutional Research and Academic Career Development Award (IRACDA). The program, now in its 20th year of NIGMS funding, aims to train a diverse group of postdoctoral fellows (postdocs) for both the teaching and independent research aspects of a career as a professor in the biomedical sciences.

The San Diego IRACDA focuses on preparing its fellows for tenure-track positions at different types of institutions, including research-intensive universities. Fellows typically go through a 3-year program where they work in a research lab at UCSD, teach at one of the two “partner” schools (both of which are minority-serving institutions), and take career development courses in skillsets like effectively mentoring, running a cutting-edge research lab, and innovatively redesigning undergraduate science courses. Fellows also mentor students at the partner schools, helping them prepare graduate school applications, putting them through mock interviews, educating them in research, and teaching them how to read and understand scientific literature.

“Science provides adventure and excitement every single day. When you’re pushing boundaries, you get to jump into the abyss of new areas. It can be scary, but it’s an incredible opportunity to try to improve our world and people’s lives,” says César de la Fuente, Ph.D., a Presidential Assistant Professor in the Perelman School of Medicine and School of Engineering and Applied Science at the University of Pennsylvania, Philadelphia. Our interview with Dr. de la Fuente highlights his journey of becoming a scientist and his research using artificial intelligence to discover new drugs.

Q: How did you first become interested in science?

A: I’ve always been fascinated by the world around me. I grew up in a town in northwest Spain, right on the Atlantic Ocean. As a kid, I would go to the beach to investigate marine organisms and bring home all sorts of different fish to study. My mom wasn’t too happy about that! We’re all born scientists, but we tend to lose that curiosity as we enter adulthood. The key is to not lose our ability to learn every day.

You probably think of a rude or offensive remark when you think of the word insult, but to biomedical researchers, an insult is the cause of some kind of injury to the body. Insults can come in a variety of forms, such as an infection or a physical trauma.

We’ve created a free resource for science educators! The Educator’s Corner is a collection of carefully curated Biomedical Beat posts, designed to align with existing NIGMS science education resources, such as Pathways, for middle and high school students. Our new collection offers educators additional tools and ideas to enhance lesson plans, building upon existing science education material that’s already available at no cost.

In the Educator’s Corner, you’ll find blog posts organized by the NIGMS science education resource they align with. Each entry includes a suggested activity for use in classrooms, home schools, and other appropriate settings. Student exercises range from pair-and-shares to simple demonstrations, freewrites, and more.