Christian Anfinsen: Protein Folding and the Nobel Prize

How are proteins made? How do they fold, and what role does structure play in their function? Chris Anfinsen's investigations answered these questions; they also led to a Nobel Prize.

Building 10

Michael Potter: The Work of Michael Potter

Michael Potter investigated the twin questions of what causes cancer and how we produce the antibodies called immunoglobulins which protect us from disease.

Building 10

Marshall Nirenberg: Deciphering the Genetic Code

Explore the Nobel Prize-winning work of Marshall Nirenberg, who deciphered the genetic code with the help of NIH colleagues, enabling genetics to become a central scientific field.

Building 10

The Stadtman Way: A Tale of Two Biochemists at NIH

The scientific power couple of Thressa and Earl Stadtman developed a unique way to train scientists; they each made significant scientific contributions too.

Building 10

Santiago Ramón y Cajal: The Beginnings of Modern Neuroscience

Learn about the first person to describe the nervous system, including intricate neurons, in exquisite and artistic detail was Santiago Ramón y Cajal.

Building 31

Biologics Regulation and Research: The People and Work of Buildings 29 & 29A

Buildings 29 and 29A are nationally significant to the history of medicine and public health because within their laboratories National Institutes of Health (NIH) and then the Food and Drug Administration (FDA) staff helped to conquer some of the deadliest infectious diseases.

Canyon Creek Schoolhouse Laboratory 100^thAnniversary

The Canyon Creek Schoolhouse laboratory opened in 1921 to investigate how to treat or cure Rocky Mountain spotted fever (RMSF) and how to prevent people from getting it in the first place.

Early Women Scientists at NIH

This page contains some resources about women scientists and researchers at the Hygienic Laboratory, later the National Institutes of Health.

NIBIB: Improving Health Through Emerging Technologies

Learn about cutting-edge research funded by the National Institute of Biomedical Imaging and Bioengineering.

Building 31

Joseph Goldberger & the War on Pellagra

Dr. Joseph Goldberger discovered the cause of pellagra, a disease that killed many poor Southerners in the early part of the 20th century.  His finding that pellagra was caused by a diet deficient in vitamin B was met by political and social resistance.

Building 1

Margaret Pittman

Margaret Pittman arrived at NIH in 1936, beginning a career that would span 57 years and make her an internationally renowned expert on vaccines and serums, as well as the first female laboratory chief at the NIH.

Building 60

Changing Times

Who would think that coloring books would provide a glimpse at nearly 40 years of Clinical Center history, each reflecting changing times and telling their own stories about the people who created them?

Building 10

Pretty Patches

Because employees designed these patches, they reveal how people thought about their work at the Clinical Center—sometimes as a heroic struggle and sometimes with humor.

Building 10, 1st floor, near the hospitality desk.

Harry Truman

See photo albums from the 1948 Open House at NIH, which helped explain the Clinical Center concept to the public, and President Harry Truman's laying of the hospital's cornerstone in 1951.

Building 10

Microscopes

Learn about the scientists behind their microscopes and the vast array of microscopes used at the NIH.

Building 10

Howard Bartner & 40 Years of Medical Illustration

Howard Bartner, an NIH medical illustrator, devoted 40 years to portraying human anatomy in his drawings.

Roscoe Brady & Gaucher's Disease

Is there a disease? What causes it? Can we prevent, treat, or cure it? Roscoe Brady's research into Gaucher's disease answered all three questions.

Martin Rodbell: How Cells Respond to Signals

Studying hormones, Martin Rodbell discovered how cells respond to signals, explaining how our body makes sense of the world. For his work, he was awarded a Nobel Prize.

The AMINCO-Bowman Spectrophotofluorometer

The colorful glow of fluorescent chemicals can identify and measure tiny amounts of substances in the body. This spectrophotofluorometer invented by Robert Bowman did just that.

A Thin Blue Line: The History of the Pregnancy Test Kit

Discover the history of the home pregnancy test—developed at the NIH—and examine its place in our culture.

Drugs as Opiates, Drugs as Research Tools: Synthetic Opiates & Opioids

Learn how the NIH Total Opiate Synthesis freed us from dependence upon flowers for painkillers and opened the door to new ones.

Siemens 1-A Electron Microscope

All sorts of viruses were visualized for the first time on this Siemens 1-A Electron Microscope used by Albert Kapikian.

Building 50

Varian A-60 NMR

The Varian A-60 NMR (nuclear magnetic resonance) spectrometer was the first low-cost instrument of its kind, producing a magnetic resonance image (MRI) that NIH scientists used to study topics such as how the brain develops as children grow.

Building 50

Early Computing at the NIH

This snapshot of some of the computing tools used in NIH labs highlights objects that are now in the NIH Stetten Museum collection.

Converging Pathways of Pain Research at NIDCR

Pain is a universally known and feared human condition, but it's also one of the least understood. Learn about NIH research on different facets of pain.