Researchers have found that allicin is an effective natural "antibiotic" that can eradicate even antibiotic-resistant bugs. An added benefit is that the bacteria appear incapable of developing a resistance to the compound. However, the garlic must be fresh because the active agent is destroyed in less than an hour after smashing the garlic clove.
Garlic technically does not contain allicin, but rather, it contains two agents in separate compartments of the clove that react to form the sulfur-rich compound allicin when the plant needs it: alliin and an enzyme called allinase. So, what makes them react?
Garlic has a robust defense system to protect itself from insects and fungi. It enzymatically produces allicin within seconds when it is injured. The crushing of its tissues causes a chemical reaction between the alliin and the allinase, and allicin is produced—nature’s “insecticide.” This is what makes garlic such a potent anti-infective, as well as what produces that pungent aroma when you cut into it.
But allicin is short-lived, lasting less than an hour. Therefore, cooking, aging, crushing, and otherwise processing garlic causes allicin to immediately break down into other compounds, so it’s difficult to get allicin up to biologically active levels in your body.
Aged Black Garlic Has Arrived!
Developed in Korea, black garlic has been gaining popularity among Western foodies for several years now, but it has recently caught the eye of the health-minded due to studies revealing its impressive nutritional properties. Black garlic is produced by “fermenting” whole bulbs of fresh garlic in a humidity-controlled environment in temperatures of about 140 to 170 degrees F for 30 days. No additives, no preservatives... just pure garlic. Once out of the heat, the bulbs are then left to oxidize in a clean room for 45 days. This lengthy process causes the garlic cloves to turn black and develop a soft, chewy texture with flavors reminiscent of “balsamic vinegar” and “soy sauce,” with a sweet “prune-like” taste. Aficionados claim the flavor will impress even the most avid garlic-hater, as the pungency and spiciness is gone.
Although the process is consistently described as “fermentation,” it really isn’t that in the strictest sense, as the transformation does not involve microbial processes—specifically, enzymatic breakdown and the Maillard Reaction are responsible for the caramelization of the sugars, dark color and deep, complex flavor profile. As the pearly white cloves slowly transition into their final black appearance, compounds in the fresh garlic transform into a whole new range of compounds. Compared to fresh garlic, black garlic is low in alliin but it is astonishingly high in other antioxidants!
Garlic helps treat viral diseases
The positive impact of garlic in the treatment of colds and viral infections is caused by the component called, allicin. This helps stop the formation of enzymes which lead to penetration of viruses in our body. The effectiveness of garlic in the treatment of viral diseases is only slightly inferior to antibiotics.
Garlic helps the body's immune system...
Garlic includes protein that contributes to the production of antibodies which protect the body from adverse impacts.
Garlic's antibacterial properties...
The antibacterial properties of garlic are caused by phytoncides. Phytoncides garlic:
prevents the growth of bacteria
is toxic for yeast fungi
is toxic for staphylococci
is toxic for diphtheria bacilli
destroys pathogens of dysentery.