EN3ZYME For Cellulosic Sugars

A potential cost-effective alternative carbon source

EN3ZYME For Cellulosic Sugars
A potential cost-effective
alternative carbon source

WHY?

Growing dependence on processed simple sugars (derived from staples like rice, corn, and maize) as a carbon feedstock in fermentation-based alternative protein production.

Currently, the predominant use of processed sugars as a carbon source for fermentation raises pressing sustainability issues within the food industry. This places fermentation-derived alternative protein products in direct competition with essential human food sources. 

Utilizing crops for alternative proteins risks food security, biodiversity, and ecosystem balance, affecting global food access and driving up prices. Furthermore, unpredictable feedstock supply may disrupt supply chains, impact policies adversely, and raise feedstock costs, hindering the accessibility, scalability, and affordability of fermentation-derived alternative proteins. 

Unlocking the potential of biomass-derived cellulosic sugars is a critical step in addressing the challenge of sourcing low-cost carbon source for alternative proteins and synbio products manufacturing through precision fermentation.

WHY?

Growing dependence on processed simple sugars (derived from staples like rice, corn, and maize) as a carbon feedstock in fermentation-based alternative protein production.

Currently, the predominant use of processed sugars as a carbon source for fermentation raises pressing sustainability issues within the food industry. This places fermentation-derived alternative protein products in direct competition with essential human food sources. 

Utilizing crops for alternative proteins risks food security, biodiversity, and ecosystem balance, affecting global food access and driving up prices. Furthermore, unpredictable feedstock supply may disrupt supply chains, impact policies adversely, and raise feedstock costs, hindering the accessibility, scalability, and affordability of fermentation-derived alternative proteins. 

Unlocking the potential of biomass-derived cellulosic sugars is a critical step in addressing the challenge of sourcing low-cost carbon source for alternative proteins and synbio products manufacturing through precision fermentation.

HOW?

We’re utilizing biomass-based cellulosic sugars as a perennial, low-cost carbon source.

We are developing multiple synbio products using various expression platforms. These platforms have the potential to utilize cellulosic sugars as a cost-effective and sustainable alternative carbon source to produce novel proteins and synbio products.

HOW?

We’re utilizing biomass-based cellulosic sugars as a perennial, low-cost carbon source.

We are developing multiple synbio products using various expression platforms. These platforms have the potential to utilize cellulosic sugars as a cost-effective and sustainable alternative carbon source to produce novel proteins and synbio products.

Cellulosic Sugars as Feedstock for Synbio Product Pipelines​

EN3ZYME can effectively hydrolyze pre-treated biomass, releasing valuable cellulosic sugars.​​

Resolves food-fuel
debate

Improved access to Synbio products

Enables economically
viable Synbio products

Lower carbon footprint

Enables economically
viable Synbio products

Lower carbon
footprint

Tailored Product Solutions

Your plant’s performance, costs, and operational needs are unique. We tailor our product solutions to cater to a wide range of customer segments with diverse requirements.

Onsite Manufacturing

Onsite manufacturing is closely linked to a 2G ethanol plant.

Minimized inventory
maintenance

Streamlined
process

Cost
effective

Enhanced
efficiency

Caters to multi-scale
plants

Resource
optimization

Adapt to demand
fluctuation

Offsite Manufacturing

EN3ZYME is produced in-house at our plants.

Offsite Manufacturing

EN3ZYME is produced in-house at our plants.

Caters to multi-scale plants

Resource optimization

Adapt to demand
fluctuation

We understand that every plant is unique.

Our tailored blends, driven by cutting-edge enzymatic technology, can be customized to your specific substrates and process conditions.

Let’s explore the perfect solution for your plant.