Your gut microbiome is like a microscopic ecosystem within your body, housing trillions of microorganisms that interact with each other and their environment in various ways. These microbes also have a significant impact on your overall health, influencing both your digestive system and other bodily functions.

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A biome is a distinct ecosystem defined by its environment and inhabitants. Your gut, specifically within your intestines, is a miniature biome teeming with trillions of microscopic organisms. This diverse community includes over a thousand species of bacteria, along with viruses, fungi, and parasites.

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Your gut microbiome is uniquely yours. Initially, infants acquire their first gut microbes through vaginal delivery or breastfeeding (chestfeeding). As you grow, your diet and other environmental factors introduce new microbes to your biome, though some exposures may also harm and reduce your gut microbiota.

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Most of the microorganisms in your gut have a symbiotic relationship with you, meaning you both benefit from the interaction. You provide them with food and shelter, while they offer essential services for your body, including keeping potentially harmful microbes in check.

​Think of your gut microbiome as a thriving, diverse garden that you rely on for nutrients and natural medicine. When this garden is healthy and flourishing, so are you. But if the soil becomes depleted, polluted, or overrun by pests or weeds, your entire ecosystem can become unbalanced.

​Your gut microbiome interacts with many of your body systems, playing such an active role that some healthcare providers consider it almost like an organ. While some of these interactions are well understood, others are still being explored.

​Digestive System Bacteria in your gut help break down complex carbohydrates and dietary fibers that your body can't digest on its own. They produce short-chain fatty acids as byproducts, which are essential nutrients that help maintain a healthy gut environment. These bacteria also synthesize important vitamins like B1, B9, B12, and K, which are vital for your overall health.

​Gut bacteria also assist in metabolizing bile in your intestines. After your liver sends bile to your small intestine to help digest fats, bacteria break it down so that bile acids can be reabsorbed and recycled by your liver. This process, known as enterohepatic circulation, is crucial for efficient digestion and cholesterol management.

Immune System Beneficial gut microbes help train your immune system to distinguish between helpful and harmful microorganisms. Your gut, which contains up to 80% of your body's immune cells, plays a key role in clearing out pathogens that pass through daily. Helpful gut bacteria also compete with harmful types for space and nutrients, preventing infections like C. difficile and H. pylori that can result from a weakened gut microbiome.

Short-chain fatty acids produced by gut bacteria are beneficial for your immune system, helping maintain the gut barrier and preventing harmful bacteria and toxins from entering your bloodstream. They also possess anti-inflammatory properties, which are crucial for preventing chronic inflammation and related conditions like autoimmune diseases and cancer.

​Nervous System Gut microbes influence your nervous system through the gut-brain axis—a network of nerves, neurons, and neurotransmitters that connects your gut and brain. Certain bacteria produce or stimulate the production of neurotransmitters like serotonin, which send chemical signals to your brain. Researchers are studying how these interactions might impact neurological, behavioral, pain, and mood disorders.

Endocrine System Gut microbes also interact with endocrine cells in your gut lining, making your gut the largest endocrine system organ in your body. These cells secrete hormones that regulate metabolism, including blood sugar, hunger, and satiety. Researchers are investigating the role of gut microbiota in metabolic conditions like obesity, insulin resistance, and Type 2 diabetes.

​Your "gut" typically refers to your gastrointestinal (GI) tract, with most people associating it with the intestines. While some gut microbiota are present in your stomach and small intestine, the majority reside in your large intestine (colon). These anaerobic bacteria thrive in the low-oxygen environment of the colon, performing essential functions like breaking down indigestible fibers and producing nutrients.

​However, if these bacteria stray beyond the colon, they can be harmful. For example, colon bacteria that enter the small intestine can disrupt digestion, and those that invade the colon wall or escape through a wound can cause infections in your body.

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