In recent years, great advances have been made in the field of immunotherapy to treat cancer. One of the most promising treatments involves engineering immune cells to express chimeric antigen receptors (CAR). These receptors are carefully designed to recognize antigens expressed on the surface of tumor cells. Once the target is recognized, the CAR-engineered immune cells can attack and kill the tumor cells. CAR T cells have been successfully used to treat certain blood cancers—three CAR T therapies for lymphoma and leukemia have gained US FDA approval. In these cases, T cells were taken from individual patients, grown and genetically-altered in the lab, then reintroduced into the same patient. Continue reading “Evaluating CAR NK Immunotherapy in Patient-Derived Colorectal Organoids”
Meet the Mighty Masked Masters of Measurement: #WorldMetrologyDay
Scientific investigation is an iterative process, for which reproducibility is key. Reproducibility, in turn, requires accuracy and precision—particularly in measurement. The unsung superheroes of accuracy and precision in the research lab are the members of your local Metrology Department. According to Promega Senior Metrologist, Keela Sniadach, it’s good when the metrology department remains unsung and behind the scenes because that means everything is working properly.
Holy Pipettes, Scientists! We have a metrology department?! Wait…what’s metrology again?
Metrology (the scientific study of measurement) got its start in France, when it was proposed that an international length standard be based on a natural source. It was from this start that the International System of Units (SI), the modern metric system of measurement, was born.
Metrology even has its own day: May 20, which is the anniversary of day the International Bureau of Weights and Measures (BIPM) was created by the Meter Convention in Paris in 1875. The job of BIPM is to ensure worldwide standards of measurement.
For life scientists, metrology centers around making sure the equipment used everyday—from pipettes to heating blocks to centrifuges—is calibrated and measuring correctly. Continue reading “Meet the Mighty Masked Masters of Measurement: #WorldMetrologyDay”
Making Research More Sustainable, One Lab at a Time
Do you love your research job? What if you couldn’t do that work anymore? What if future researchers couldn’t have the opportunity to build from what you have accomplished and feel the same joy you do about their research?
Unfortunately, these may become more than hypotheticals for the next generation of scientists due to the impact humans are having on the earth. Scientific research has an outsized impact on some aspects of our unsustainable use of resources. Academic research buildings can use four times more energy than a typical office building and can be responsible for one-third of all waste generated on campus. So, can you make scientific research more sustainable? Continue reading “Making Research More Sustainable, One Lab at a Time”
Research-Based Training for Sustainable Use and Management of Marine Ecosystems in Namibia
In my science blog research/writing, news reports are usually pulled from US sources. But interesting scientific research is obviously being conducted in many places around the globe. When this story from Namibia came along, there was so much I didn’t know. It was time to catch up.
Namibia is Exactly Where in Africa?
Namibia is one of the world’s youngest countries, having gained independence from South Africa in 1990. Situated northwest of the country of South Africa on the Atlantic Ocean, Namibia is arid, composed largely of desert.
This blog is about research conducted at the Sam Nujoma Research Center, University of Namibia, on Henties Bay. Henties Bay (not shown on this map) is in the region of Erongo, located in the center of Namibia along the coast. Henties Bay has become a tourist destination in part due to the abundance of fish and marine life found there.
Studying Autophagy in Flies Using CRISPR
Transcribed RNA can be used to study RNA structure and how it relates to function or how proteins and RNA interact. It can also be used for gene silencing using RNAi (studied more often as a possible therapeutic option) or simply serve as a molecular standard in Real-time RT-PCR. Transcribed RNA is also used in Class 2 Clustered Regularly Interspaced Short Palindromic Repeat systems, or CRISPR.
The CRISPR system, which is naturally occurring in bacteria, has been manipulated to perform gene editing in a laboratory environment. To perform CRISPR in the laboratory environment, you need two main reagents:
- The Brains: Guide RNA (gRNA or sgRNA) – Small piece of RNA containing a nucleotide sequence that is capable of binding the chosen Cas Protein, and contains a portion of the sequence that can bind the DNA the researcher intends to modify – the target DNA.
- The Brawn: CRISPR-associated endonuclease (Cas Protein) – The protein that cleaves the target DNA; the most popular Cas protein is called Cas9. The Cas protein is guided by the (gRNA).
Recently, Guo et al. used Promega’s RiboMAX™ Large-Scale RNA Production System to produce gRNA to be used in CRISPR for their study to determine the effects of the loss of, or mutations in, a specific gene in fruit flies (1). Atg101 is a gene that plays an important role in autophagy, an intracellular pathway for removing toxins or damaged parts of cells. Continue reading “Studying Autophagy in Flies Using CRISPR”
Celebrating Bike-to-Work Week 2019
Every day at the Promega Headquarters in Madison, Wisconsin, many Promega employees trade the crowded Beltline Highway for a scenic route along the bike trails. As our colleagues wind around the lakes and prairies of south-central Wisconsin, they’re reducing greenhouse gas emissions and getting some fun exercise in the process. This week, during National Bike-to-Work week, we’re taking time to recognize our colleagues who opt for a healthier and more sustainable commute. In the video below, hear about how Promega supports our bike commuters from Sam Jackson, an avid biker and Multimedia Specialist at Promega.
Eight Considerations for Getting the Best Data from Your Luminescent Assays
The stage is set. You’ve spent days setting up this experiment. Your bench is spotless. All the materials you need to finally collect data are laid neatly before you. You fetch your cells from the incubator, add your detection reagents, and carefully slide the assay plate into the luminometer. It whirs and buzzes, and data begin to appear on the computer screen. But wait!
Don’t let this dramatic person be you. Here are 8 tips from us on things to watch out for before you start your next luminescent assay. Make sure you’ll be getting good data before wasting precious sample!
Continue reading “Eight Considerations for Getting the Best Data from Your Luminescent Assays”
Converting RPM to g Force (RCF) and Vice Versa
g Force or Relative Centrifugal Force (RCF) is the amount of acceleration to be applied to the sample. It depends on the revolutions per minute (RPM) and radius of the rotor, and is relative to the force of Earth’s gravity.
A good, precise protocol for centrifugation instructs you to use the g force rather than RPMs because the rotor size might differ, and g force will be different while the revolutions per minute stay the same. Unfortunately, many protocols are written in hurry and instructions are given in RPMs. Therefore, you have to convert g force (RCF) into revolutions per minute (rpms) and vice versa.
Modern centrifuges have an automatic converter but older ones do not. There is a simple formula to calculate this, but it takes some time to do the calculation. Meanwhile, your cells might die or the biochemical reaction goes on for three times longer than it should.
There are several ways to make conversion:
Continue reading “Converting RPM to g Force (RCF) and Vice Versa”
Useful or Useless: Weird Things Packed in Our Evolutionary Suitcase
Genetics are a curious thing. Don’t get me wrong, on paper and in theory, the study and science behind our inheritance completely checks out. However, in practice, it can still be a bit disconcerting to look in the mirror one day and recognize your father’s nose and eyebrows in your own face, or to realize you gesticulate in the same animated fashion as your mother, and sometimes hear her laugh come bubbling out of your own mouth.
More curious still are the structures and behaviors that have been carried throughout evolution to the modern era of humanity, though we are considerably distinguishable from our more primitive ancestors.
And perhaps most curious of all, are the structures we continue to pack along with us, as that have little to no known useful function in the contemporary human body. These features are better known as vestigial structures, and are classically defined as features and behaviors that no longer serve the function and purpose they were designed to perform (in comparison to other creatures with the same parts).
Currently, as I recover from the aftermath of a painful encounter with one of my own vestigial organs, I find myself considering if my late appendix ever did anything much for me, or if it’s only purpose was to lie in wait as a metaphorical ticking time-bomb. Prior to my surprise appendectomy, I hadn’t spared much thought for my appendix, and decided I wanted to honor it’s memory by learning more about it, in addition to several of our other human evolutionary leftovers. Man, I wish I would’ve asked the doctors to hang on to that bad boy for me!
The Evolutionary Junk in Our Trunk
Appendix
The appendix is perhaps the most widely known vestigial organ in the human body of today. If you’ve never seen one, the appendix is a small, pouch-like tube of tissue that juts off the large intestine where the small and large intestines connect. By comparison, in herbivorous vertebrates the appendix is much larger, and functions primarily to aid in the breakdown of cellulose in consumed plants. Today, the appendix is considered a small leftover from one of our plant-eating ancestors. As our diets have changed over time, the role our appendix plays in digestion has declined, leaving plenty of room for speculation regarding what purpose it serves now. Continue reading “Useful or Useless: Weird Things Packed in Our Evolutionary Suitcase”
Celebrate World Migratory Bird Day by Reducing Your Plastic Use
One of the most noticeable phenological events of Spring in the Midwest United States is the arrival of the red winged black birds in March. These birds fly in from the South and take up residence on fence posts, power lines and tall reeds, creating a a weaving of red and yellow and black against a still brown backdrop. Shortly after the blackbirds arrive, the first robins of spring greet us and sandhill cranes fly in along with many other species.
These migratory birds that serve as heralds of spring are celebrated on World Migratory Bird Day (#WMBD #WMBD2019 #BirdDay). This day is celebrated twice a year, on the second Saturday in May and the second Saturday in October.
Continue reading “Celebrate World Migratory Bird Day by Reducing Your Plastic Use”