Systemic Enzymes | 7 Important Points

1. Introduction:

The term ‘systemic’ refers to the systems that affect our physical and mental health. For example, the enzyme which breaks down fat in the body is called an ‘insulin-sensitizer.’In this position, we will be concerned about how these systemic enzymes can affect us:

1) We can’t see them; they’re called systemic.

2) They are not visible or measurable in our bodies; that’s why they are also called systemic.

3) These systemic enzymes are so widespread in our bodies that we cannot even detect them with a blood test. That’s why most of us don’t even know about them.

4) They are either slow or fast growing; this distinguishes them from other enzymes.

Systemic enzymes are a protein that helps the body break down and use food.
The concept of systemic enzymes is the idea that a chemical reaction occurs when two or more existing chemical responses interact. These reactions can be called chains, like the beads on a necklace.

Only one type of reaction occurs at a time, and the process is controlled by a set of regulatory molecules (called enzymes). The chemical interactions between these enzymes are similar events that would occur at different stages in the chain reaction. These are called catalytic events.

The enzyme chains are connected through different regulatory molecules, which control how well each chain reacts with an external stimulus or force. An excellent example is the oxidation-reduction (redox) reaction between oxygen and nitrogen in alkaline solutions. In this case, you have two chains reacting in a series of different regulatory molecules, which will trigger either one to take place first or second.

The result is that both chains react with each other and produce hydrogen and oxygen gas (these gases are also called oxidants). This process happens naturally almost everywhere in nature; it’s called photosynthesis. Over millions of years, these chemical processes have been enhanced and altered by many factors, including light, temperature, pH levels, etc.

However, there are other systems where specific regulatory molecules do not exist, such as metabolic processes in animals (e.g., digestion), which require many enzymes activated by signals from outside their bodies for these reactions to occur at multiple steps along the chain-reaction pathway. We refer to them as systemic enzymes. Examples of these mechanisms include:

a) Anabolic reactions where food is broken down into simpler substances such as carbohydrates within animals;

b) Catabolic reactions where proteins or amino acids break down into simpler substances such as fats within animals;

c) Deglutition reactions where proteins or sugars are broken down into smaller peptides within animals;

d) Transmembrane transport reactions where transport proteins move through membranes and across cell membranes within animals; e) Reactions involving oxidative phosphorylation where energy is released from fat metabolism for use in cellular functions; f) And finally, catabolic reactions where fats break down into simpler substances such as amino acids within animals—all systemic enzymes. Often called “catalytic” or “oxidative” enzymes because they can change only one side at once while being produced by other cells.

2. What are systemic enzymes?

Many people have been reading about and learning about systemic enzymes in the last few years. This duration has existed coined to describe how each of us has a unique digestive system and how we absorb nutrients through our food. It’s an essential and often misunderstood concept, so let’s explore this more deeply.

A digestive enzyme is an enzyme that aids digestion in the body. Every cell has enzymes to help it process food, known as digestive enzymes. The system of digestive enzymes is found in all the cells in our bodies. In the cell wall, millions of digestive enzymes are waiting for the food to pass through them.

The function of these enzymes is essential because many nutrients can’t be absorbed properly without them. A deficiency in digestive enzymes can cause defects in other nutrients such as Vitamin B12 or Minerals like calcium or magnesium or destroy other hormones like insulin or estrogen, which also influence our health (see Wouter van Ooijen’s article on dairy milk).

In addition, there are several other functions too: they digest starches (polysaccharides like starch), fats, and proteins; they inhibit bacteria growth; they synthesize hormones, and they release chemicals inside the cell to stimulate communication between cells.

So let’s break these down into major categories:
Bacterial Digestion: It’s responsible for turning food into energy by breaking down carbohydrates and protein into amino acids the body can produce for energy production. It also breaks down fat molecules into molecules that are smaller than water, thus making it easier for them to be absorbed from the small intestines.

Starch Digestion: This process breaks down starch molecules in food into simple sugars that are absorbed by our body without needing special processing. It also helps us balance carbohydrates, fats, protein, and easy-to-digest foods like meat-based products. Fats Digestion:

This process breaks down fat molecules into fatty acids, which enter our bloodstream where they form testosterone from cholesterol (which comes from eggs), thereby triggering male sex hormones called Testosterone which improve muscle strength, reduce body fat, boosts energy levels, increases libido, increases sexual pleasure, gives people more robust immune systems, improve moods, etc. Protein Digestion: This process breaks down protein molecules into amino acids, which are broken down further by digestive enzymes until you’re left with protein molecules ready.

3. The benefits of systemic enzymes.

If you’re a life-long learner, you’ll be thrilled to know that you aren’t the only one. Millions of people can’t remember their own names, who can’t tell you the difference between a clock and a wall clock, or who can’t count to 10.

Numerous studies have confirmed that systemic enzymes are just as important as they sound. Systemic enzymes are proteins that help all living cells survive. These enzymes are crucial in many different body parts like cardiovascular, reproductive, and metabolic systems, immune systems, and even neural systems.

Systemic Enzymes | 7 Important Points

4. How do systemic enzymes work?

The systemic enzymes are involved in the production of enzymes, particularly hydrolytic enzymes that break down proteins and carbohydrates. The systemic enzymes are loosely grouped into three classes:
Heme-oxygenases (HOX) – catalyzes the conversion of oxygen to water

Acetyl-CoA–synthesize acetic acid
Glutamate–synthase (GAS) – catalyze the transformation of glutamate to glutamine
Glutamatergic synapses – synthesize glutamine (glutamate) to the excitatory neurotransmitter glutamate.
This is a brief overview. Feel free to go deeper. For more details, click here.

5. Are there any side outcomes of taking systemic enzymes?

When you hear “systemic enzymes” and read “side effects,” don’t be frightened. The term “systemic” indicates that enzymes are found in the body. It means that the system — or your body — is using them.

That isn’t to say there aren’t any side effects of taking systemic enzymes. I believe that there are, but it is minimal compared to what one would expect from a natural product, and most people who take them never experience adverse effects of any kind.

Denatured Enzyme | 6 Important Points

6. How can I get more systemic enzymes in my diet?

My favorite, and the one that is most often cited in the articles and discussions on this blog, is this one from a 2005 article titled “The Penis Enzymes.” It’s an eye-opening read:

“A few years ago, a researcher named Michael Fertin at the University of California San Francisco (UCSF) put together a group of young men and women diagnosed with cancer. He subjected them to physical and psychological testing to measure their cognitive abilities.

The results were interesting enough that he decided to conduct more tests on these people after they were done with their cancer treatments. And again, the results were revealing: Those who had gotten the best scores on the psychological tests had significantly less brain cancer than people who scored low on intelligence quotient tests.

“What was going on?
“The answer was simple: The men and women with high IQ scores were using their brains as smarts – problem-solving, creative thinking, and so forth – but for some reason not as much as those without high intelligence quotients. So they were wasting their minds even though they weren’t dying from their illnesses.

“This image of how intelligence affects brain cancer is called the ‘penis enzyme hypothesis.’”
This is only one sample of how we need to take our own lives into our own hands to be effective; it could be better if we all could harness our power instead of relying on others to do it for us. This can be seen in many areas, but none more so than when talking about food (which also happens to be my specialty).

Your body requires a specific quantity of distinct enzymes to digest your food correctly so that it can be utilized by your organs more efficiently; if you don’t have enough, you won’t receive the full benefit of nutrition needed to function optimally within your body.

The good news is that there are systemic enzymes present within our bodies that help us process foods into ‘usable energy units; these are then transported throughout our bodies until all consumed energy components are used up beforehand or until excess energy is stored within your muscles — depending on your lifestyle habits (read about muscles as storage for surplus energy here).

If you want to maximize your systemic enzyme consumption without having any side effects or adverse reactions from eating food based on scientific research, then try eating foods such as mushrooms.

7. Conclusion:

There is a severe need for systematic enzymes in the human body.
Systemic enzymes are the body’s building blocks for complex chemical reactions required to keep our bodies healthy. In addition, these enzymes are responsible for many critical biochemical processes in the body, including:
Intestinal cytoskeleton formation — (is required for proper intestinal mucosal development)

Cellular homeostasis and metabolic regulation — (Required during cell division and repair)
Neurotoxicity — (needed to maintain neurotransmitter balance)
Mitochondrial function — (needed to produce ATP and other energy-generating molecules)
Molecular communication and localization — (required for proper communication between neurons)
Protein synthesis and degradation — (needed for protein synthesis and degradation)

The list goes on. The type of enzyme that is more important than others varies from person to person, depending on what process is critical. However, systemic enzymes are involved in all of these processes. It is essential that we understand how our bodies work, as it directly impacts our life expectancy . . . or lack thereof.


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