Why are some people more prone to sensing bitter tastes? Taste buds are covered with tiny molecular sensors, called “taste receptors,” that specialize in detecting the five basic tastes: sweet, salty, sour, bitter, and umami (a savory, meat-like taste). The types of taste receptors you have determine what tastes you can, or cannot, detect in… Continue reading Bitter Taste
Category: Traits
Explore how our genes can contribute to traits like our appearance and senses, helping to make us unique.
Asparagus Odor Detection & Genetics
How it works Ever noticed your urine smells different after eating asparagus? You’re not the only one. The genetic link 23andMe researchers identified a genetic marker located near the OR2M7 gene that is associated with the likelihood of smelling asparagus-related odor in their urine. This gene has instructions for a protein that detects odor molecules. … Continue reading Asparagus Odor Detection & Genetics
Cheek Dimples & Genetics
How it works The “smiling muscle” connects each cheekbone with the corners of the mouth. Some people have an extra smiling muscle in their cheeks, which can cause dimples to appear when they smile. The genetic link People used to think dimples came from a single, dominant gene inherited from a parent. Now, researchers know… Continue reading Cheek Dimples & Genetics
Bald Spots & Genetics
How it works Scientists are still uncovering critical information about balding patterns and several studies indicate that testosterone plays an important role. But baldness doesn’t necessarily mean that someone has unusually high or low levels of testosterone; rather, it suggests that the person’s hair follicles respond differently to this hormone. The genetic link 23andMe researchers… Continue reading Bald Spots & Genetics
Back Hair & Genetics
How it works Our hair follicles produce one hair at a time. As hair cells grow from the bottom of the follicle, proteins like keratin help connect and build the cells to form a strand. The genetic link 23andMe researchers found 17 genetic variants that are associated with back hair. But scientists are still investigating… Continue reading Back Hair & Genetics
Musical Pitch & Genetics
How it works Let’s say you’re driving and your favorite song comes on the radio. You hear the opening notes and sing along. It may seem simple, but matching a musical pitch is actually quite complicated. After you hear a note, your brain identifies (or attempts to identify) the pitch and decides which vocal muscles… Continue reading Musical Pitch & Genetics
Cleft Chin & Genetics
How it works When your chin is forming, the left and right halves of the lower jaw start out as two bones, then join in infancy. But if you have a cleft chin, your jawbone might still have a little gap in the middle. The genetic link So far, researchers have identified 38 genetic markers… Continue reading Cleft Chin & Genetics
Dandruff & Genetics
How it works Dandruff is a common skin condition characterized by flaking of the skin on the scalp. The genetic link Scientists at 23andMe identified 487 genetic markers that are associated with dandruff. In addition to genetics, other factors like age, sex, and ancestry can also influence your chances of getting dandruff. For example, among… Continue reading Dandruff & Genetics
Earlobe Type & Genetics
How it works Scientists don’t know why people have earlobes, but that hasn’t stopped them from trying to understand which factors impact earlobe shape. The genetic link Hopefully everything you learned in science class didn’t go in one ear and out the other. But when it comes to earlobe type, it might be okay if… Continue reading Earlobe Type & Genetics
Early Hair Loss
How early hair loss works We’re born with five million hair follicles, and about 100,000 to 150,000 of them are on the scalp. As we age, our hair follicles typically shrink in size, produce thinner hairs and eventually stop producing hair altogether. The genetic link The timing and rate of hair follicles becoming thinner or… Continue reading Early Hair Loss