The Problem
Xavier, the CEO of Eligo Bioscience, came to us with a clear problem:
“Investors don’t get what we do. Are we microbiome? Gene editing? Both?”
Their platform combines CRISPR gene editing with microbiome science. A static illustration on their website wasn’t enough. People still didn’t understand the mechanism.
That’s when you need a 2D/3D Mode of Action animation.
The Science
Most inflammatory skin diseases – alopecia, vitiligo, psoriasis, acne – remain difficult to treat. Current therapies act systemically. Side effects. Relapse. No precision.
Eligo’s approach is different:
โ They deliver genetic payloads into specific skin bacteria using a topical gel
โ For acne, CRISPR-Cas targets only the C. acnes strains that drive inflammation
โ If the genetic signature is present: cut. Bacterium killed
โ If not: left intact
For diseases like alopecia and psoriasis, they reprogram skin bacteria to become tiny drug factories โ producing therapeutic molecules directly inside hair follicles.
Precise. Local. No systemic side effects.
Why This Project Was Personal
Around the same time we started this 2D/3D Mode of Action animation, my kids were diagnosed with skin diseases.
Suddenly I wasn’t just making a video. I was researching. Reading papers. Understanding the skin microbiome. Learning how inflammation can trigger systemic symptoms.
That personal knowledge went into this project. We asked better questions. We understood the stakes.
The Result
Our 2D/3D Mode of Action animation shows Eligo’s mechanism step by step:
โ How the delivery particles work
โ How CRISPR recognizes target bacteria
โ How healthy bacteria stay intact
โ How reprogrammed bacteria produce therapeutics locally
Xavier’s investors now get it. In 2 minutes.
If your science is too complex for slides but too important to simplify badly – that’s exactly where we work.
๐๐ฒ๐ ๐ถ๐ป ๐๐ผ๐๐ฐ๐ต to discuss your 2D/3D Mode of Action animation.
