Challenging targets, such as membrane proteins or protein-protein interactions were considered undruggable in the past. However, today a variety of screening methods can be used to help develop drugs against these formerly undruggable targets.

Neurological disorders, such as neurodegenerative diseases, epilepsy, chronic pain, psychiatric disorders, are one of today’s largest unmet medical needs. However, due to poor disease and target understanding, Neuroscience drug discovery can be very challenging. An open access research platform with dedicated neuroscience specialists and integrated services will be an ideal partner throughout your drug discovery …Read More >

When a new pathogen invades, it’s a race against time for your immune system to stop it from multiplying out of control. This week, we explore Protein Based Vaccines as part of our “How Does It Work?” series. Fortunately, #vaccines give your immune system a head start against dangerous pathogens. A protein-based vaccine, like this …Read More >

This week, we delve into Adenovirus Vaccines as part of our “How Does It Work?” 3D MoA animation series examining biotech topics on a molecular level. In 2020, the World Health Organization declared the Covid-19 outbreak a pandemic, but not all viruses are bad news. Adenoviruses are a family of viruses that can be used …Read More >

If you’ve ever read about mRNA vaccines and wondered, “How Does It Work?” This week’s installment of our video series was made with you in mind. To understand how mRNA vaccines work, let’s take a close look at the immune system. Your immune system can recognize that the structures on bacteria or viruses are different …Read More >

This week’s episode of our “How Does It Work?” series features Peptide-Oligonucleotide Conjugates. Peptide-oligonucleotide conjugates are made up of peptide and oligonucleotide components. These cutting-edge molecules have many applications in biomedicine. The oligonucleotide component can interact with mRNA to alter gene expression within diseased cells but oligonucleotides are easily degraded in the body and have …Read More >

Nucleic acids have long been regarded as biological compounds for storing and transferring information. However, their functionalities are far more diverse than this – ranging from gene regulation to enzymatic catalysis. One type of unconventional nucleic acid is the aptamer. Aptamers are short, single stranded nucleic acids that fold into highly specific structures. They bind …Read More >

In this week’s episode of our “How Does It Work?” video series, we explore Individualized Oligonucleotide Therapies. Around 6 billion letters form the genetic code that makes each person’s biology unique. Genomic sequencing allows us to read this code to find defects that cause disease, enabling us to tailor therapies for individual patients. This was …Read More >