SCIENCE & Results
Results That Scale
25+ successful projects in more than 10 different organisms = Broad host compatibility.
15+
Years of Research
25+
Successful Projects
200+
Peer-Reviewed Publications
5+
Patent Families
PROVEN AT SCALE
Discover how MNDL Bio’s AI engine is transforming protein production across the globe.
Small Protein in E. coli Cell-Free System
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Objective: Increase the expression of a nanobody (~15kDa) within a bacterial cell-free system.
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The Challenge: The original DNA sequence was highly inefficient, resulting in very low protein expression levels.
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The Result: By utilizing MNDL Bio-designed sequence variants, the team achieved a significant breakthrough, improving expression levels by 9.5 to 15-fold.
Biosensor Development in E. coli
Objective: Enhance the development of a biosensor by significantly increasing the expression of its reporter gene.
The Challenge: A previous version of the biosensor was not viable for practical field applications because of its low signal-to-noise ratio.
The Result: Through the design and testing of 370 unique promoter variants, MNDL Bio achieved up to a ~10x increase in reporter activity, making the sensor field-ready.
Engineered Enzyme in E. coli
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Objective: Increase the expression levels of a custom-engineered enzyme within an E. coli host.
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The Challenge: Initial attempts at production were unsuccessful, as the engineered enzyme yield failed to meet the necessary expression goals for commercial viability.
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The Result: After screening 10 specialized MNDL Bio variants, one was identified that provided a ~2.5-fold increase in expression, meeting the project's target.
Translation Optimization in Plants
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Objective: Improve the production of a complex protein using the Nicotiana tabacum (tobacco) plant as a host.
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The Challenge: Although the product was already on the market and showed high mRNA levels, the majority of the proteins produced were not biologically active.
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The Result: MNDL Bio optimized the gene specifically to improve co-translational protein folding, leading to a 3x improvement in the yield of active, functional protein.