What Are Probiotics?
Probiotics, in contrast, are live, beneficial microorganisms often referred to as ‘good bacteria.’ Unlike enzymes, which perform a single function, a single probiotic bacterium can generate multiple enzymes. This allows probiotics to break down various types of organic matter—such as oils, carbohydrates, and proteins—simultaneously, enhancing cleaning performance and efficiency.
Probiotics in Cleaning
Probiotics are microscopic, living organisms that provide cleaning benefits when applied in sufficient quantities. According to the World Health Organization, probiotics must offer a beneficial effect to the host, whether it be in health or hygiene applications.
Unlike enzymes, probiotics produce a wide variety of enzymes, allowing them to adapt to different cleaning challenges. Bacterial DNA contains the genetic instructions to produce thousands of different enzymes, making probiotics more versatile than enzyme-based cleaners alone.
Key Benefits of Probiotics in Cleaning
Key Benefits of Probiotics in Cleaning:
- Multi-Enzyme Production:
- Probiotics naturally generate thousands of enzymes rather than relying on a single or limited enzyme type.
- They adapt to the cleaning environment, producing the right enzymes in the necessary amounts.
- Instead of merely cutting organic waste molecules, probiotics completely degrade them, leading to more thorough cleaning.
- Extended Cleaning Efficiency:
- Probiotics continue working for up to 72 hours after application.
- They multiply and colonize surfaces as long as organic matter is present, providing ongoing cleaning benefits.
- They adjust their population based on environmental conditions, ensuring efficiency over time.
What Are Enzymes?
Enzymes are specialized proteins produced by bacteria and other living cells that act as catalysts, speeding up specific chemical reactions. They play a crucial role in biological functions such as digestion, metabolism, and cell activity. However, enzymes are highly selective, meaning each type only facilitates a particular reaction. In cleaning applications, this means an enzyme is only effective if it matches the specific type of dirt or stain it is designed to break down.
Enzymes in Cleaning
Enzymes function as molecular ‘scissors’ that break down complex organic waste into smaller, more manageable molecules. This process makes it easier for bacteria to consume and remove dirt.
Advantages and Limitations of Enzymes
- Advantage: Enzymes remain active and are not consumed in the reaction, making them efficient.
- Limitation: They are highly specific and will only work on their designated substrate. If an enzyme does not match the cleaning requirement, it becomes ineffective.
How do Probiotics work?
Probiotic cleaners don’t just clean—they transform surfaces. First, they release enzymes to break down grime. Then, the probiotics digest the remaining particles. This powerful one-two punch allows them to tackle a wider range of messes more effectively than enzyme-only solutions.
1. Live probiotics produce enzymes that initiate the cleaning process by targeting soil and grime. These enzymes act as biological catalysts, enabling the breakdown of organic matter.
2. Soil molecules attach to specific enzymes through a lock-and-key mechanism, ensuring that only the right type of enzyme works on each type of soil. This process prepares the soil for breakdown, making it easier to remove.
3. The enzymes break down the soil molecules into smaller, more manageable components. This decomposition allows for the effective removal of dirt, grease, and other organic residues, making the surface easier to clean.
4. Once the soil is broken down, probiotics consume the smaller molecules as a food source, effectively eliminating them from the surface.The probiotics continue to produce enzymes, allowing the process to repeat.