Today’s blog is written by Chuck York, VP of Manufacturing Operations at Promega.
Coronavirus SARS-2-CoV continues to fuel unprecedented demand for COVID-19 related products. Once a term relegated to virology research labs, “coronavirus” is now a household term and a global crisis that has upended lives, disrupted entire economies and shaken our sense of normalcy.
Clinicians, researchers, government officials and the general public are understandably concerned about the availability of reagents for coronavirus testing. At Promega, we are hearing the needs and concerns of our scientific colleagues and partners, and we are doing all that we can to help alleviate them.
At Promega, we are hearing the needs and concerns of our scientific colleagues and partners, and we are doing all that we can to help alleviate them.
As a global company with thousands of products, we have been meeting customer demand in response to market dynamics for decades. Our long-term approach has served customers well. Our efforts to provide support for the COVID-19 response began in early January, with our work with our colleagues and customers in China. We are applying what we’ve learned to propel us forward in the most efficient way now.
We continue to increase production of all COVID-19 related reagents and instruments due to an unprecedented increase in global demand. Production lines that were running one shift 5 days a week are now operating 3 shifts seven days a week, and we continue to take measures to increase our manufacturing capacity.
Today’s article is written by guest blogger Vince Debes, this year’s winner of the Promega Art Contest for Creative Scientists. He will be starting a Master of Science program in Geological Sciences in the School of Earth and Space Explorationat Arizona State University this fall.
It’s incredible how seemingly insignificant actions can lead to major events years down the road. When my partner and I were testing out our new camera shutter remotes in the Grand Tetons on the way to do field work in Yellowstone, I never imagined an image we captured would lead to a grand prize in the Promega Art Contest for Creative Scientists. The four-minute-long exposure was taken at midnight with a full moon and shows the ghostly, almost imperceptible, movements of Colter Bay marina vessels against a backdrop of trailing stars and the stolid Tetons.
Today’s blog is written by guest blogger, Kali Denis, an intern in our scientific applications group. You’ll find her bio at the end of the article.
A few months ago, I stood in front of my freezer at home, holding a bag with a tube full of gum that I chewed. The freezer was overflowing, as we had just done our weekly grocery shopping, so I ended up stuffing the bag next to some frozen fish sticks. I wondered how long it would take for one of my roommates to question just exactly what this gross-looking bag was doing in our freezer. I doubt they would have ever guessed that it was for a project at my internship!
The three winners of the 2019 Real-Time PCR Grants have been hard at work in the six months since receiving their grants. Each winner was eligible to receive up to $10,000 in free PCR reagents as well as the opportunity to collaborate with our knowledgeable technical service and training teams.
Abbeah Navasca is a plant pathology researcher with the Tagum Agricultural Development Company, Inc. (TADECO*, Philippines). She is developing treatments for viral infections that affect one of Philippines’ largest and most valuable agricultural exports: bananas. As a result of the qPCR grant, she and two of her colleagues were able to participate in sample preparation and analysis workshops with Promega Technical Services experts in Singapore. During her visit, the team worked through strategies for plant sample preparation and amplified those samples with the GoTaq® 1-Step RT-qPCR System. We had a chance to ask her more before she headed back to her lab.
Today’s blog is written by guest blogger, Penny Patterson, VP Corporate Communications at Promega.
The idea that businesses need to serve and provide value to constituents in addition to shareholders is one that has gained increasing recognition since last summer when the Business Roundtable issued its “Statement on the Purpose of the Corporation.” The topic of what some call “stakeholder capitalism” is surfacing again heading into the World Economic Forum this week.
Promega has practiced “stakeholder capitalism” for more than 40 years and, as we’ve shared through our corporate responsibility reporting for the last decade, we have seen meaningful impact. From our founding in 1978, we have taken a “whole human” approach to our business. For us this means growing a financially stable and profitable company that considers and benefits science, employees, customers, community, shareholders and all global residents.
This approach starts with our people. We live the notion that every one of our employees has the potential to make a meaningful difference. And they do. Here are just a few examples. Our manufacturing and operations teams deliver with 99% accuracy and a complaint rate of 0.004%. Discoveries by our R&D scientists generate some of the most read papers among key science journals. The average tenure of our leadership team is 18 years, and over half of these leaders grew their careers and capabilities at Promega.
The three 2019 Real-Time PCR Grant Winners have been hard at work in the six months since winning their grants. Each winner was eligible to receive up to $10,000 in free PCR reagents as well as the opportunity to collaborate with our knowledgeable technical service and training teams.
One of the 2019 winners, Alberto Biscontin (University of Padova, Italy), performs research in the fields of Neurogenetics and Chronobiology. He is looking to shed greater light on the circadian rhythms of the Antarctic krill. Alberto published his most recent analysis in Nature and GoTaq® qPCR Master Mix helped him validate expression of genes for his study.
His qPCR data showed support for internal mechanisms that not only support daily living but also clarified the overwintering process of the krill. Now that Alberto has sized up some zooplankton, we asked him to share a little more about himself and his research:
Q: How long have you been a researcher? A: I have been a researcher since 2012.
Q: How did you decide to research Antarctic krill? A: In 2013, I had the opportunity to join the international Antarctic research program PolarTime. [It] brought together eight research groups with different scientific expertise to study seasonal and daily rhythms in the Antarctic krill Euphausia superba.
Q: When you are not busy at the bench, what do you like to do? A: Traveling. I love strolling through open-air markets.
Q: Are there any tips or tricks you have learned that make your job easier? A: You can easily switch from a classic RT-PCR protocol to a cheaper and faster One-step protocol using the same primers and temperatures.
Q: What comes next? A: I would like to characterize the clock machinery of other polar organisms to understand whether high latitude clocks have developed similar strategies to cope with [the] polar environment. Moreover, a better understanding of marine circadian clocks could help to shed light on the evolution of the animal circadian machinery.
You can find Alberto’s most recent publication in Nature Scientific Reports. The 2020 Real-Time PCR Grant will be coming soon. For more information on the 2019 winners and information on the 2020 Grant, visit the Real-Time Grant web page. Be sure to follow us on social media for the most up-to-date information regarding the 2020 Grant, including application deadlines and winner notifications!
Promega created a special incentive to reward field science consultants who help the scientific community via the Helix onsite stocking program. The winner had to meet ambitious criteria to receive 2 round-trip tickets to anywhere in the world, as well as a week of paid vacation and spending money. I won and choose to use my award to travel to Switzerland. Here is the story of my amazing trip!
This blog is written by guest blogger, Caitlin Cavanaugh.
Since I was a little girl, my parents have often reminisced about one of their favorite overseas trips taken to Switzerland in 1977. This was a trip that my parents term “BC”, which in our house refers to their fun, childless married days “Before Caitlin.” They’ve shared their photos many times of the snow capped mountains and lush, green valleys. The Swiss Alps look very different from peaks in the US, with their steep, jagged peaks and clear, blue lakes. As a nature lover and an avid hiker, I knew this would be the perfect destination to realize my love for the outdoors and to follow in the footsteps of my parents—42 years later.
“Back when I was in the lab…”: it seems like every former scientist has a story. Kind of like Thanksgiving Dinner among your elderly relatives, scientists are quick to one-up each other with horror stories from our days at the bench—stories that included escape artist rats, a leaky sequencing gel apparatus, and the iconic radioactively contaminated post doc.
We turned to our favorite science cartoonist, Ed Himelblau, to ask for some retro Halloween costumes based on stories of things that used to be common in the lab that don’t seem like such a great idea now. Enjoy…and if you have a few retro horror science costume ideas of your own, please share them.
Today’s blog is guest-written by Wihan Adi, a Master’s student majoring in physics at Justus-Liebig-University in Giessen and team member of iGEM Marburg. Although his background is in nuclear and particle physics, his research interests shifted toward affordable biosensors for point-of-care cancer detection, which is how he ended up doing microbiology for iGEM.
Back in March when the iGEM season had just started, Maurice, a fellow iGEM Marburg team member, told me that he was exchanging emails with Margaretha Schwartz from Promega. Given my background as a physics student, Promega was not a household name for me at the time. “So, are you interested in automating a plasmid purification protocol?” asked Maurice. He told me that Promega was willing to supply the Wizard® MagneSil® Plasmid Purification System for this purpose; that was another name that added to my confusion.
This year, iGEM Marburg is aiming to establish a fast phototrophic organism as a synthetic biology chassis. For this goal we chose Synechococcus elongatus UTEX 2973, with a reported doubling time of 90 minutes. More specifically, we are creating an easy to use toolbox to empower rapid design testing, including genome engineering tools, self-replicating plasmid systems, natural competence and a Golden Gate-based part library. Our team chose to work on phototrophic organisms because we envision accelerating research in this particular field. (Note: Last year, Marburg’s iGEM project won the Grand Prize!)