Making “Scents” of the Mysterious Science of Plant Odors

Posted on by Natalie Larsen
Corpse flower in bloom
Photo credit: “titan arum 01” by illumine23 is licensed under CC BY-NC-ND 2.0.

When it comes to plant aromas, we tend to forget that we, as humans, are not the target audience, and these odors were not designed with us in mind—we are really passive spectators to a show that luckily most of us happen to enjoy. This past spring Mother Nature demonstrated just what it means to have a target olfactory audience at Madison’s Olbrich Botanical Gardens. For the first time in about 12 years, one of the four massive titan arum (Amorphophallus titanum) plants that reside at Olbrich bloomed, an event that typically only happens for 24-48 hours at a time and 4-5 times total throughout this plant’s roughly 40 year lifespan. More informally (and aptly) known as the “corpse flower” due to its carcass-adjacent coloring and distinctly foul odor, hundreds of plant enthusiasts and hopeful spectators queued for hours to catch a glimpse and whiff of the pungent plant. Until rare events like this happen, it can be easy to forget just how interesting and complex plants really are. We romanticize and lend meaning to flowers and relish in the sweet fragrance they provide, while often completely overlooking the intricate biological and chemical processes that comprise the science of floral scent.

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The BTC Institute: Serving Youth Skills and Science for Summer

Posted on by Riley Bell

World Youth Skills Day provides a unique opportunity to emphasize the importance of equipping young people with experiences, skills, and opportunities in the workforce. This celebratory day falls on July 15th and was officially declared by the United Nations General Assembly in 2014.

At Promega, we are constantly adhering to invest in the future generations of science—and the BioPharmaceutical Technology Center Institute (BTC Institute) serves this mission best. The BTC Institute is a non-profit organization that provides educational, scientific, and cultural opportunities for people of all ages. Each summer, the organization hosts a wide range of experiences including camps, programs, and field trips to support individuals interested in science. In the spirit of World Youth Skills Day, let’s take a look at some experiences that are offered for young learners in summer 2022.

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Promega Highlights Innovative Work with Brazil Young Researcher Award

Posted on by AnnaKay Kruger


In late May 2022, Promega invited the nine finalists for the Promega Brazil Young Researcher Award to present their work at a Student Research Symposium on the Promega Madison campus.

Scientists from around Brazil recently traveled to Madison, WI, USA as part of the Brazil Young Researcher Award

The Brazil Young Researcher Award program was created to acknowledge exceptional work by Brazilian students utilizing Promega products in their research. These student researchers were recognized for their achievements and were given the opportunity to present their innovative research to Promega scientists as part of a week-long immersive experience on the Promega campus.

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PROTAC Virus Vaccines: A New Approach to Vaccine Development

Posted on by Michele Arduengo

Vaccine research and development is a major area of focus for life scientists across the globe. Clinical trials have shown that vaccines that target tumors show promise for cancer treatment. Additionally, the emergence of new zoonotic diseases has revealed a need to develop vaccines quickly as the world becomes more global and human populations interact more often with each other and wild habitats. Importantly, these vaccines need to be suitable for distribution in a variety of settings, including those that do not have easy access to refrigeration.

Influenza Virus. Si et al used influenza as a model to engineer and test PROTAC Virus vaccines

There are many ways to classify the different types of vaccines that are currently available. The National Institute of Allergy and Infectious Diseases in the United States, categorizes vaccines as: whole pathogen vaccines, subunit vaccines, and nucleic acid vaccines—based on how the antigen that stimulates the immune response is delivered to the host.

Whole-pathogen vaccines, which include many of vaccines used in clinical settings, use the entire pathogen (organism that causes the disease) that has been either weakened or killed to elicit a protective immune response. Killed vaccines are what their name implies: the pathogen has been killed so that it cannot cause disease, but enough of its structure remains to generate antibody response. Often, the immune response generated with killed vaccines is not as robust as that generated with other kinds of vaccines. 

Weakened or attenuated vaccines use whole pathogens that have been weakened in the laboratory through long-term culture or other means. Our modern MMR (measles, mumps and rubella) vaccine is an example of an attenuated vaccine. These vaccines tend to generate strong, long-lasting immune responses, but have increased risk for immunocompromised individuals.

Engineering an Influenza A PROTAC Virus Vaccine

A recent paper by Si et al published in Nature Biotechnology describes a new type of live-attenuated whole pathogen vaccine: the PROTAC virus. PROTAC viruses are prevented from replicating by targeting critical viral proteins for degradation using the host cell protein degradation pathway. The vaccine is live-attenuated by the host cells that degrade critical proteins.

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Getting To Know D.O.O.R.S. Scholar Anusha Ray Dey

Posted on by Jordan Villanueva

“I want to make sure that what I think I want to do, truly is what I want to do.”

Anusha Ray Dey started working in a research lab as an undergraduate at the University of Wisconsin-Madison because she imagined it would improve her future application to medical school. However, there was one twist she didn’t see coming – Anusha realized she really enjoyed working in research. Now graduated, she’s earning a Masters degree to gain more experience before making her next decision.

“I could go into industry and do research, or even be a research coordinator. But maybe I’ll decide to still go on to medical school,” Anusha says. “My experiences in research definitely did shift my plans.”

Anusha Ray Dey
Photo courtesy of Anusha Ray Dey

Supporting Mental Health on Campus

Anusha Ray Dey completed an undergraduate thesis searching for chemical signals in the urine of male orangutans. She has a black belt in tae kwon do and she loves to draw. For an honors project, she drew all of the illustrations for an animated video on Alzheimer’s Disease.

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How Social Media Has Been Sciencified

Posted on by Riley Bell

On June 30th, 2010, World Social Media Day was created to bring people together and recognize the impact that social media has on communication globally. What started as a communication method for friends and families is now an integral tool for news, discussion, professional connections, and marketing.

In its short life, social media has redefined how we interact and communicate with one another. People have flocked to social media ever since the beginning of MySpace in 2003. However, it’s no secret that the pandemic accelerated social media usage, acceptance, visibility, and engagement. For many of us, it’s a great way to keep up with family, connect with friends, and, well, be social. But with more conversations happening online than ever, the question is, how does the scientific community fit into this ever-changing virtual world?

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Tracking African Swine Fever in Domestic Pigs

Posted on by AnnaKay Kruger
Domestic pigs on a farm. African Swine Fever can wreak havoc in domestic herds.

African Swine Fever is a highly contagious disease caused by the African Swine Fever Virus (ASFV) that can spread among populations of both wild and domestic pigs. While not transmissible to humans, it is passed between pigs through direct contact with bodily fluids or feces, through the consumption of contaminated food or through tick-borne transmission. With a mortality rate nearing 100%, this virus can easily devastate large populations of pigs.

ASFV is extremely resilient and is predominantly carried by wild pigs and soft ticks of the Ornithodoros genus. It can survive extended periods of time in processed meat, and contaminated pig products are a common source of transmission, posing a serious threat to the global pig industry due to rising demand for pork. The consequences of unchecked spread of ASFV can include a disruption in the production and exportation of pork products, job losses and other devastating effects. Among those countries with pig populations vulnerable to the spread of ASFV is the Philippines.

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The Human Cell Atlas: Mapping a Cellular Landscape

Posted on by Jordan Nutting

From macrophages that seek out and destroy infectious agents to fibroblasts that hold tissues and organs together, cells give form and function to our bodies. However, despite their foundational roles in our biology, there is still much we don’t know about cells—like where different cell types are localized, what states a given cell type may take on, how the molecular characteristics of cells change over a person’s lifetime and more. Addressing these questions will provide a deeper understanding about the cellular and genetic basis of human health and disease.

Image contains several cells with a hazy outline of a DNA molecule in the background and one cell is highlighted
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COVID-19 Intranasal Vaccines: Right on the Nose?

Posted on by Promega

Last updated April 28, 2023

covid-19 intranasal vaccines

COVID-19 is still a global pandemic. Around the world, as of 5:40pm CEST, 26 April 2023, there have been 764,474,387 cumulative confirmed cases of COVID-19, including 6,915,655 deaths, reported to the World Health Organization. As of 24 April 2023, a total of 13,325,228,015 vaccine doses have been administered. The adoption of vaccines worldwide continues to increase, yet periodic spikes and surges in infection rates continue to occur with new SARS-CoV-2 variants, such as that observed in Australia in Jan 2022. Vaccine booster doses provide effective protection against developing severe disease and hospitalization, but vaccine adoption and distribution face ongoing challenges in low- and middle-income (LMIC) countries (1). The development of intranasal vaccines could help alleviate some of the challenges in these areas. Therapeutic interventions for those already infected are in development, with one (Paxlovid) currently available under emergency use authorization (EUA) in the US.

Cumulative COVID-19 statistics by country: WHO COVID-19 Dashboard. Geneva: World Health Organization, 2020. Available online: https://covid19.who.int/ (last cited: April 28, 2023).

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PD-1 Blockade Treatment shows 100% Tumor Resolution in Mismatch Repair Deficient Rectal Cancer Patients

Posted on by Kelly Grooms

Rectal cancer cases are rising in young adults (1). Typically, these cancers are treated with a multipronged approach that includes chemotherapy, radiation and surgery. These treatments show complete response in approximately 25% of patients and come with a long list of toxic side effects and life-altering complications including negative effects on bladder and bowel function, sexual health and fertility issues (2). 

artistic image of cancer cell and immunotherapeutic agents such as PD-1 blockade

Approximately 5–10% of rectal cancers have deficiencies in their mismatch repair mechanisms (dMMR), and these cancers tend to be less responsive to standard chemotherapy treatments (2). Tumors are identified as dMMR using either immunohistochemistry (IHC) to detect the presence or absence of the major mismatch repair proteins, or by molecular testing for high-frequency microsatellite instability (MSI-H), the functional evidence of dMMR . These tumors often have somatic mutations that produce “foreign” proteins that can be detected by the immune system. As a result, these tumors are effective at priming an immune response and tend to respond well to immune checkpoint therapies such as PD-1 blockade treatments. Immune checkpoint blockade, or immune checkpoint inhibitor, therapies are a revolutionary, and relatively new, approach to treating cancer. Some tumors express immune checkpoints to prevent the immune system from producing a strong enough immune response to kill the cancer cells. Immune checkpoint blockade therapies work by blocking immune checkpoint proteins that act to negatively regulate the immune system through the PD-1 pathway. When these checkpoint proteins are blocked, the body’s T-cells can recognize and kill the cancer cells.

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