What is the Difference Between Systemic and Proteolytic Enzymes?
🆚 Go to Comparative Table 🆚The main difference between systemic and proteolytic enzymes lies in their functions and where they work in the body.
Systemic Enzymes:
- These enzymes mainly help against inflammation throughout the body.
- They have a wide range of functionality in terms of metabolic control of the whole body.
- They are designed to be taken on an empty stomach, allowing them to be absorbed directly into the circulation and support the body where needed.
- Some benefits of systemic enzymes include maintaining healthy immune functions, supporting healthy blood flow and circulation, maintaining healthy joints, and assisting with muscle soreness after exercise.
Proteolytic Enzymes:
- These enzymes help the breakdown of proteins in the body.
- They are produced by the pancreas and stomach and are essential for many important processes in the human body, including cell division, blood clotting, immune function, and protein recycling.
- The three main proteolytic enzymes produced naturally in the digestive system are pepsin, trypsin, and chymotrypsin.
- Proteolytic enzymes can be found naturally in certain foods such as papaya, pineapple, kiwi, ginger, asparagus, sauerkraut, kimchi, yogurt, and kefir.
In summary, systemic enzymes focus on reducing inflammation and supporting overall health, while proteolytic enzymes specifically target protein digestion and breakdown in the body.
Comparative Table: Systemic vs Proteolytic Enzymes
Systemic and proteolytic enzymes are two main types of enzymes that serve different functions in the human body. Here is a table highlighting the differences between them:
Systemic Enzymes | Proteolytic Enzymes |
---|---|
Mainly help against inflammation throughout the body | Help the breakdown of proteins in the body |
Support and maintain a healthy immune system, promote healing of tissues, encourage muscle recovery, and aid in digestive function | Produced naturally in the digestive system, with the main enzymes being pepsin, trypsin, and chymotrypsin |
Examples: Serrapeptase and Nattokinase | Examples: Papain and Bromelain |
Sources: Silkworms and soybeans | Sources: Papaya and pineapple |
Systemic enzymes specifically target inflammation throughout the body, while proteolytic enzymes are responsible for breaking down dietary proteins into smaller fragments called amino acids. Both types of enzymes play crucial roles in supporting and maintaining a healthy body, and they can be found naturally in certain foods or as supplements.
- Proteolytic Enzymes vs Digestive Enzymes
- Amylolytic Proteolytic vs Lipolytic Enzymes
- Protease vs Proteinase
- Proteasome vs Protease
- Protease vs Peptidase
- Proteinase K vs Protease
- Pepsin vs Protease
- Anabolic vs Catabolic Enzymes
- Ribozymes vs Protein Enzymes
- Probiotics vs Digestive Enzymes
- Acid Hydrolysis vs Enzymatic Hydrolysis
- Enzyme vs Protein
- Trypsin vs Chymotrypsin
- Lysozyme vs Lysosome
- Peptones vs Proteoses
- Intracellular vs Extracellular Enzymes
- Endopeptidase vs Exopeptidase
- Enzymatic vs Nonenzymatic Reaction
- Trypsin vs Pepsin