This year has been different in many ways - we have worked so hard to provide you with solutions you need for COVID-19 research. We are happy that we are able to support biotech sector and we want to stay close to You and all our clients around the world (even if it is through computer screen for now).
Luckily we were able to celebrate 25 jubilee with our big Solis BioDyne family - there is 101 of us now (with all the little ones).
Wanted to share with You the thoughts from Kadri Artma, one of the owners of Solis BioDyne:
"Solis BioDyne is turning 25. Twenty-five years of valuable experiences, of fruitful collaboration with our clients, and of exciting projects coming to life.
We take great pride in the quality and innovation we deliver in our products and solutions. But what we value and appreciate the most is the fact that each year, more scientists put their trust in us. Each of your projects contribute to understand and create a better world, and we are grateful you choose us to be part of them.
Our reagents are used in more than 150 countries all over the globe – from research to diagnostics, from plants to human. This is what we dreamed about 25 years ago and we won't stop here. Thank you very much for your work and for your trust!"
Thank You!
To advance innovation in synthetic biology we decided to help young and talented scientists from Lund University with their Methane RemOOver project. Their goal is the reduction of methane emissions from cows using a synthetically engineered microorganism. With this idea, they also participated in iGEM competition.
This year the Nobel Prize in Physiology or Medicine was awarded to Victor Ambros and Gary Ruvkun, two scientists credited with discovering microRNA and its role in post-transcriptional gene regulation. Now, 30 years after their finding, you can do microRNA experiments with ease by using our products designed to make discovering new things simple and hassle-free.
This summer we got to collaborate with a fun project organized by the MINT Campus in Germany. Not only does MINT campus inspire children and young people about these topics but it also introduces young people to sustainable, innovative developments in current research and technology.
Whether you are studying the genetic material of plants, brains or viruses, the experiment usually starts with extracting RNA from the sample material. It would be incredibly useful to get all the RNA extracted instead of it getting destroyed by the RNases before even starting the cDNA synthesis step. But how can we protect the RNA when RNases are all around us? Let’s find out!