"I love this supplement for digestive support. Ed Group's formulations are truly world class, and given the huge number of people with digestive challenges, I know there are millions of people who could experience immediate benefits from VeganZyme." - Mike Adams, the Health Ranger
VeganZyme™ digestive enzymes supplement is an advanced full-spectrum systemic enzymes formula that will help enhance the digestive process and increase the nutritional value of your food.
Content: 120 Capsules
VeganZyme - Digestive Enzymes Supplement
100% Vegan Systemic & Digestive Enzymes Blend
What is VeganZyme?
VeganZyme is the most advanced full-spectrum systemic and digestive
enzymes supplement in the world. It contains the broadest spectrum of
kosher-certified and vegetarian-based enzymes and is free from fillers
and toxic compounds. This formula contains digestive enzymes, which help
digest fats (lipids), sugars, proteins, carbohydrates, gluten, fruits
and vegetables, cereals, legumes, bran, nuts and seeds, soy, dairy and
all other food sources. VeganZyme may also be used as a systemic enzyme
blend to break down excess mucus, fibrin, various toxins, allergens, as
well as excess clotting factors throughout your body. VeganZyme covers
most, if not all, digestive issues. This enhances the digestive process,
increasing the nutritional value of food.
What Makes VeganZyme The Best?
- All enzymes are from non animal sources making it Vegan-Friendly
- Contains the most comprehensive enzyme blend ever developed
- Gluten free, GMO free, made in the USA and certified kosher by Kehilla
- May be used either as a digestive or systemic enzyme blend depending on individual needs
- Broad pH range of enzyme blend increases activity throughout the digestive tract and entire body
- This is a premium blend developed to satisfy virtually all digestive issues
- May help to reduce sensitivities to 'hidden' sources of gluten and casein proteins in food products
- Superior fibrinolytic activity, which helps maintain healthy fibrin
metabolism. This in turn reduces blood viscosity and provides excellent
Health Benefits of Enzymes
- May support healthy joint function and a healthy inflammatory response
- Provide systemic support for wound healing
- May help to reduce bloating, gas or indigestion from certain foods and food combinations
- Aids the body in absorbing more nutrients from food
- Supports healthy blood pressure by helping to maintain normal blood viscosity
- Assist in rupturing the wall of Candida and other types of yeast
and fungus in the digestive tract, potentially increasing the
effectiveness of other supplements used to combat overgrowth
- May help to thin mucus in lungs and sinus passages
- Supports peristalsis (intestinal contractions) by reducing viscosity of the fibers in some plant-based food
- Increases mineral availability by breaking down phytic acid from plants, grains and seeds
- Help reduce harmful by-products of normal metabolic processes
Why You Should Take a Digestive Enzymes Supplement
As we age, the natural enzymes produced by our body and digestive
system are reduced. This inhibits the digestive process and does not
allow us to properly break down the foods we eat and extract the vital
nutrients we need. But perhaps more importantly, it reduces our ability
to prevent oxidation and inflammation in the body.
All cooked and processed food is devoid of enzymes and live foods
contain active enzymes. There are many foods that present health
problems for individuals. Sometimes the problem is occasional (such as a
headache) and other times it is chronic (indigestion, gas, bloating).
Foods that are always problematic and potentially toxic to the body
include processed or cooked food, meat, dairy, cereal grain, gluten, soy
When digestive issues arise, it is common for consumers to reach for
antacids or take medications. This may temporarily help, but the result
is simply a reduction in the symptoms that you are experiencing and not a
solution to the root cause of the problem. Stomach acid serves several
vital roles including denaturing protein as a part of the digestive
process, destroying bacteria and viruses ingested, and activating
pepsinogen into the protease pepsin. It's true that an antacid may ease
your heartburn for a while, but it also reduces your ability to digest
your food, denature potential allergenic proteins and protect you from
Taking a digestive enzymes supplement enhances the digestive process,
increasing the nutritional value of your food. In addition, the common
effects of indigestion, bloating, abdominal discomfort and gas are
greatly alleviated. You will also find your need for antacids or
medications may decrease substantially.
By supplementing with a natural enzymatic support product such as
VeganZyme, you can greatly help the body in its ability to break down
food and toxic compounds.
- VeganZyme™ (Proprietary Blend)
- Protease with DPPIV (FCC 60,000 HUT/g)
Protease breaks down proteins and gluten, and is derived from
Aspergillus oryzae, Aspergillus niger and Bacillus subtilis. This is a
protease blend derived from the fermentation of three microbial
organisms. It is a mixture of acid, neutral and alkaline proteases that
provide activity throughout the entire range of pH in the
gastrointestinal system (active from pH 2.5 to 9.0). DPPIV is a blend of
different proteases (enzymes that break down protein) that mimic the
body's own natural DPPIV enzymes. In digestion, proteases hydrolyze
(break down) protein into smaller polypeptides and free amino acids.
This action increases the digestibility of proteins, regardless of their
source. This powerful blend of enzymes helps hydrolyze all types of
protein including gluten from cereal grains. Most people are sensitive
to the gluten in wheat, barley and rye. The reaction can be from minor
abdominal discomfort up to very severe reactions in those people with
celiac disease. This blend is really ideal to hydrolyze "hidden" gluten
found in highly processed foods. This protease blend demonstrates both
exopeptidase and endopeptidase activity with high substrate specificity.
The exopeptidase enzymes hydrolyze protein molecules at the terminus of
peptide chains liberating amino acids, while the endopeptidase
hydrolyzes protein molecules at an interior peptide bond liberating
peptides of various lengths. All proteases demonstrate anti-inflammatory
activity when taken properly
- Amylase (FCC 22,500DU/g)
Amylase breaks down starch and is derived from Aspergillus oryzae. This
is an alpha amylase enzyme produced by fermentation of the fungal
organism Aspergillus oryzae. Alpha Amylase is an endoamylase that
hydrolyzes (breaks down) starch and glycogen into dextrin, glucose and
maltose. Rice and potatoes contain the highest levels of starch.
- Glucoamylase (FCC 20 AGU/g)
Glucoamylase breaks down starch and is derived from Aspergillus niger.
The glucoamylase enzyme (also called amyloglucosidase) is produced by
the fermentation of the fungal organism Aspergillus niger. Glucoamylase
is an exoamylase that hydrolyzes (breaks down) starch, producing maltose
and free glucose subunits from the non-reducing end of the starch.
Along with other amylases, glucoamylase further enhances the digestion
and nutritional value of food based starches.
- Lactase (FCC 1500 ALU/g)
Lactase breaks down lactose (milk sugar) and is derived from Aspergillus
oryzae. Nutritionists estimate that 10 - 20% of the U.S. population is
lactose intolerant. Some ethnicities have much higher levels of lactose
intolerance. Lactase is designed to hydrolyze (break down) milk sugar,
called lactose, into its component parts, glucose and galactose. Lactase
is derived from the fermentation of Aspergillus oryzae. Most Asian,
African, and Native American people are lactose intolerant. Fifty
percent of Hispanics and about 20 percent of Caucasians do not produce
lactase as adults and should supplement their diet with lactase.
- Cellulase I and II (FCC 625 CU/g)
Cellulase breaks down cellulose (fruits and vegetables), and is derived
from Trichoderma reesei and Bacillus licheniformis. Every plant cell is
surrounded by a non-living complex, called a cell wall. A major
component of cell walls is a complex carbohydrate, cellulose. Humans do
not produce enzymes needed to digest cellulose. Cellulase enzymes aid in
the total digestion of plant-based foods and increase the nutritional
value of those foods.
- Maltase (FCC 50 DPo/g)
Maltase breaks down maltose (cereals, legumes and barley), and is
derived from Aspergillus oryzae. Maltase is an exo-carbohydrase enzyme
that acts only on the non-reducing end of starch, producing the
disaccharide maltose. Combined with the other carbohydrase enzymes, it
enhances the overall digestion of starch and other carbohydrates. It is
produced by fermentation of Aspergillus oryzae or from barley malt.
- Hemicellulase (FCC 1000 HCU/g)
Hemicellulase breaks down hemicellulose (fruits, vegetables, grains, and
cereals), and is derived from Trichoderma reesei. Hemicellulose is
another major component of the cell wall of plants. Again, the inclusion
of hemicellulase aids in the total digestion and increases the
nutritional value of plant-based foods. Hemicellulase is also produced
by fermentation of the fungal organism Trichoderma reesei.
- Xylanase (FCC 50 XU/g)
Xylanase breaks down xylose (high fiber foods, grains and cereals), and
is derived from Trichoderma reesei. Xylanase is a special kind of
hemicellulase. It is especially effective at digesting high fiber foods,
which have a very high content of xylans, a complex polysaccharide made
up of a chain of 5-carbon sugars called xylose. Xylanase is also
produced by fermentation of the fungal organism Trichoderma reesei.
- Beta Glucanase (FCC 50 BGU/g)
Beta Glucanase breaks down beta glucans (high fiber foods, grains and
cereals), and is derived from Trichoderma reesei. The cereal grains,
wheat, barley and rye, contain beta glucans, a kind of carbohydrate.
Beta glucans can become viscous in the intestinal tract, slowing natural
peristalsis (intestinal contractions). The Beta glucanase enzyme
hydrolyzes these glucans, reducing viscosity and balancing natural
peristalsis. Beta glucanase is produced by fermentation of the fungal
organism Trichoderma reesei. Beta Glucans are most commonly found in
cereal grains, wheat, barley and rye, as well as bakers yeast.
- Serrapeptase (10,000 SU/g)
Serrapeptase breaks down fibrin and mucous, and is derived from Serratia
marcescens. Serrapeptase is a powerful proteolytic enzyme with
fibrinolytic and anti-inflammatory activity. It is a bacterial source
protease enzyme produced by the fermentation of Serratia marcescens.
Serrapeptase is used primarily as a systemic enzyme. It supports healthy
joint function, helps maintain a normal inflammatory response and
demonstrates powerful fibrinolytic activity, which is important for
cardiovascular support. Other functions include a lessening of scar
tissue and a reduction in the viscosity of mucous in lungs and nasal
- Nattokinase (800 FU/g)
Nattokinase breaks down fibrin and mucous, and is derived from Bacillus
natto or Bacillus subtilis natto. The organism that produces nattokinase
was originally discovered in a fermented soy food called natto.
Nattokinase is a powerful proteolytic enzyme with fibrinolytic and
anti-inflammatory activity derived from the bacteria Bacillus subtilis
natto and/or Bacillus natto, which was originally found in NATTO, a
traditional fermented soybean food that is very popular in Japan.
- Bromelain (FCC 375,000 PU/mg)
Bromelain breaks down protein and inflammatory factors, and is derived
from Ananas comosus. Bromelain is an extract from the stem or juice of
pineapples, Ananas comosus. Bromelain helps digest proteins and can also
be used for its anti-inflammatory properties when used systemically.
Read more about the Health Benefits of Bromelain.
- Papain (FCC 200,000 PU/mg)
Papain breaks down protein and inflammatory factors, and is derived from
Carica papaya. Papain is an extract from immature papaya, Carica
papaya. Papain demonstrates both exoprotease and endoprotease activity
with a broad pH range. It helps digest proteins and can also be used for
its anti-inflammatory properties when used systemically.
- Alpha Galactosidase (FCC 250 GalU/g)
Alpha Galactosidase breaks down complex carbohydrates, and is derived
from Aspergillus niger. Alpha Galactosidase helps digest grains and
legumes, which contain many non-digestible sugars called
oligosaccharides. These often result in abdominal discomfort, gas and
bloating. Alpha Galactosidase breaks down these oligosaccharides very
effectively. It is produced by the fermentation of Aspergillus niger.
- Lipase (FCC 675LU/g)
Lipase breaks down fats and oils, and is derived from Aspergillus niger.
Lipase is a lipolytic enzyme produced by the fermentation of
Aspergillus niger. Lipase catalyzes the hydrolysis of fats and oils,
yielding monoglycerides, diglycerides, glycerol and free fatty acids. It
has broad substrate specificity on the fats and oils of vegetable and
- Catalase (FCC 25 BU Baker Unit/g)
Catalase breaks down H2O2 to water and oxygen, and is derived from
Aspergillus niger. Catalase is an antioxidant enzyme that catalyzes the
conversion of hydrogen peroxide into water and oxygen. Hydrogen peroxide
is a by-product of cell metabolism, which serves some useful functions
including in an immune response.
- Invertase (FCC 1000 SU/g)
Invertase breaks down sucrose and table sugar, and is derived from
Saccharomyces cerevisiae. Invertase is another carbohydrase enzyme that
splits sucrose (common table sugar) into its component parts, glucose
and fructose. Combined with all the other carbohydrases, it enhances the
overall digestion of starch and other carbohydrates. It is produced by
the fermentation of Saccharomyces cerevisiae.
- Pectinase (FCC 2500AJDU/g)
Pectinase breaks down pectin and dietary fiber, and is derived from
Aspergillus niger. In plant cells, pectin consists of a complex set of
polysaccharides that are present in most primary cell walls and are
particularly abundant in the non-woody parts of plants, especially fruit
and vegetables. Pectinase selectively hydrolyzes and depolymerizes
naturally occurring pectin.
- Phytase (FCC 15 FTU/g)
Phytase breaks down seeds, corn, soy and nuts, and is derived from
Aspergillus niger. Phytase is an enzyme that catalyzes the hydrolysis of
phytic acid (myo-inositol hexakisphosphate), an indigestible, organic
molecule that contains six phosphate molecules. Phytic acid not only
reduces the available phosphorus, but it binds certain important
minerals making them unabsorbable. These include zinc, iron, and to a
lesser extent, calcium and magnesium. Phytic acid and its salt form,
phytate, are commonly found in many plants, especially grains and seeds.
Phytase catalyzes the release of inorganic phosphorus, as well as other
bound essential minerals.
- Glucose Oxidase (200GO/g)
Rarely found in a blend of systemic enzymes or digestive enzymes
supplement, glucose oxidase breaks down glucose to H2O2, and is derived
from Aspergillus niger. Glucose oxidase is an oxidoreductase enzyme.
That is, an enzyme that catalyzes the transfer of electrons from one
molecule (the reductant) to another (the oxidant). Glucose oxidase
catalyzes the oxidation of glucose to hydrogen peroxide (H2O2) and
D-glucono-d-lactone. In cells, glucose oxidase aids in breaking sugar
down into its metabolites. It also provides significant antibacterial
activity from the production of H2O2.
- Vegetarian capsule
- Certified organic brown rice flour.
FCC stands for Foods Chemical Codex. FCC is a division
of USP (United States Pharmacopeia). It sets standards for ingredients.
In the case of enzymes, FCC is a standard assay used to accurately
determine the activity of enzymes.