SARS-CoV-2, the pandemic coronavirus that surfaced for the first time in China last year, is an equal opportunity invader. If you’re a human, it wants in. Regardless of age, race, or sex, the virus appears to infect people at the same rate. Which makes sense, given that it’s a totally new pathogen against which approximately zero humans have preexisting immunity.

But the disease it causes, Covid-19, is more mercurial in its manifestations. Only some infected people ever get sick. Those who do experience a wide range of symptoms. Some get fever and a cough. For others it’s stomach cramps and diarrhea. Some lose their appetite. Some lose their sense of smell. Some can wait it out at home with a steady diet of fluids and The Great British Baking Show. Others drown in a sea of breathing tubes futilely forcing air into their flooded lungs. Old people, those with underlying conditions, and men make up the majority of the casualties. But not always. In the US, an alarmingly high fraction of those hospitalized with severe symptoms are adults under the age of 40. Kids, and in particular infants, aren’t invincible either.

How Long Does the Coronavirus Live on Surfaces? Plus: What it means to “flatten the curve,” and everything else you need to know about the coronavirus.

To understand what accounts for these differences, scientists have been scouring the patchy epidemiological data coming out of hotspots like China, Italy, and the US, looking for patterns in patients’ age, race, sex, socioeconomic status, behaviors, and access to health care. And now, they’re starting to dig somewhere else for clues: your DNA.

On Monday, 23andMe launched a new study intended to illuminate any genetic differences that might help explain why people who’ve contracted Covid-19 have such varying responses to the infection. The consumer genomics company joins a number of emerging academic projects aimed at answering the same question. Prior research indicates that some gene variants can put people at higher risk for certain infectious diseases. Others offer protection, like the CCR5 mutation that makes people who carry it resistant to HIV. At this point, it’s too early to say how big a role DNA might play in vulnerability to Covid-19. But these findings may one day be used to identify people with higher risk for the most serious symptoms and to sharpen the search for potential new treatments.

“We want to understand how your genes influence your response to the virus,” says Joyce Tung, 23andMe’s vice president of research. “Our hope is that by collecting data from people who’ve been tested and diagnosed with Covid-19, that we can learn something about the biology of the disease that we can contribute to the scientific community to help them treat people more successfully.”

While other at-home DNA testing companies have converted their shuttered labs into Covid-testing operations, 23andMe decided to leverage a unique asset: its database of more than 10 million customers, 80 percent of whom have given consent for their genetic information and other self-reported details to be used for research. The company has spent years building out a platform that makes it easy to push out surveys en masse to this trove of potential study participants. As a result, each genetic profile comes with hundreds of phenotypic data points—like how many cigarettes a customer has smoked in their lifetime or whether anyone in their family has ever been diagnosed with diabetes. The sheer volume of data that 23andMe has at its disposal has powered the company’s leap into drug discovery, and made it a genetic research publishing powerhouse.