Revolutionizing Science

Scientific Breakthroughs

NIH supports pivotal research breakthroughs that result in the emergence of new research fields, great leaps in our scientific understanding, and novel scientific techniques that can be harnessed for wide ranging applications.

Human Genome Project

The Human Genome Project鈥攁n international effort supported in part by NIH that brought together engineers, computer scientists, mathematicians, and biologists鈥攔evolutionized the field of genomics, spurred the development of novel technologies and analytical tools, established a commitment to open science and data sharing, and changed the face of the scientific workforce.

Image credit:聽最新麻豆视频 Human Genome Research Institute, NIH

  • Today, there are more than 1.25 million results for the search term 鈥済enomics鈥 in PubMed, up from around 400,000 in 2003.聽
  • NIH maintains a human genome reference sequence and data repositories of anonymized datasets, which host over 1,887 studies.
  • Genomic data sharing promotes public benefit from federally funded research because it prevents the same research from being performed or paid for twice, and open approaches to data sharing continue to build on the foundation set by the Human Genome Project.

The Genetic Code

In the 1960s, NIH researchers discovered the process by which the genetic code of DNA is translated into proteins via messenger RNA, launching the genetic revolution. This discovery has touched nearly every field of science, from anthropology to zoology, revealing our underlying biology, including the cause of many diseases.

Image credit: NIH

  • Often described as 鈥渃racking the genetic code鈥 this Nobel Prize-winning advance revolutionized research, touching nearly every field of science.
  • This NIH research formed the foundation for personalized, gene-based medicine and new treatments for many diseases including cancer, sickle cell disease, cystic fibrosis, and other genetic disorders, both rare and common.

Green Fluorescent Protein

Green fluorescent protein (GFP), which causes jellyfish and other organisms to glow green, has been used to understand genetics, cell biology, developmental biology, neurobiology, cancer, and brain diseases. NIH-supported research led to the discovery of GFP and contributed to its adaptation in biomedical research.

Image credit:聽Katti Prasanna, Ph.D., Muscle Energetics Laboratory, NIAMS and the 最新麻豆视频 Heart, Lung, and Blood Institute, NIH

  • GFP revolutionized biomedical science and played a critical role in understanding genetics and cell biology. Today, it is widely used in the pharmaceutical and biotechnology industries.
  • GFP played a crucial role in a 2012 research project involving the integration of stem cells into existing heart muscle in the hope of developing new treatments for damaged heart tissue.
  • Researchers won the Nobel Prize in Chemistry in 2008 for their work with GFP.

mRNA Vaccine

Decades of NIH-supported research, including investments in HIV research, revolutionized vaccine development, leading to the first two FDA-approved vaccines for COVID-19. These vaccines use mRNA to train the body to recognize SARS-CoV-2, the virus that causes COVID-19.

Image credit:聽最新麻豆视频 Institute of Allergy and Infectious Diseases, NIH

  • Traditionally, vaccines work by introducing a weakened or inactivated virus, or a virus protein, into the body to induce an immune response against the virus.聽
  • With this new class of vaccines, the cellular messenger, mRNA, delivers instructions to cells to induce an immune response against the virus.聽
  • Both Moderna and Pfizer/BioNTech vaccines use an mRNA sequence of the SARS-CoV-2 spike protein discovered by NIH scientists and collaborators.

Gene Editing

New gene-editing techniques, developed through NIH-supported research, are faster, cheaper, more efficient, and have the potential to correct the DNA code inside living cells. These technologies allow for disease-causing genetic material to be added, removed, or altered within cells and are currently being tested to treat genetic diseases.

Image credit:聽Ernesto del Aguila III, 最新麻豆视频 Human Genome Research Institute, NIH

  • Gene-editing harnesses the natural process of DNA repair, in which a broken section of DNA triggers a cell鈥檚 repair mechanism to stitch together the break.聽
  • CRISPR/Cas9, the most widely used gene editor, was discovered through NIH-funded basic research on how bacteria defend themselves from viruses.聽
  • Gene-editing techniques are being pursued as ways to diagnose viruses and to treat genetic diseases.聽
  • In 2019, NIH spent $391 million on gene therapy research, funding 827 grants, and spent $46 million on gene therapy clinical trials, funding 69 grants.

Nobel Prizes

NIH researchers are leaders in their fields. Dozens of NIH-supported scientists have received Nobel Prizes for their groundbreaking achievements. These prizes recognize those who have conferred the greatest benefit to humankind in the past 12 months.

Image credit: NIH

  • As of 2022, 169 researchers either at NIH or whose research was supported by NIH have received or shared 101 Nobel Prizes.聽
  • Often called 鈥淎merica鈥檚 Nobels,鈥 the Lasker Award recognizes the contributions of scientists, physicians, and public servants who have made major advances in the understanding, diagnosis, treatment, cure, and prevention of human disease.聽
  • The 214 NIH Lasker awardees, as of 2022, include extramural researchers, intramural researchers, and institutional award recipients.

References

Human Genome Project

  1. Genomics Articles in PubMed:聽
  2. Green ED, et al.聽Nature. 2020;586(7831):683-692. PMID:聽.
  3. RefSeq curation and annotation of the human reference genome:聽
  4. AnVIL: NHGRI's Genomic Data Science Analysis, Visualization, and Informatics Lab-Space:聽

The Genetic Code

  1. Griffiths AJF, et al. (2000).聽An Introduction to Genetic Analysis.聽(7th ed.). W. H. Freeman.聽
  2. Deciphering the Genetic Code:聽
  3. Marshall Nirenberg: Deciphering the Genetic Code:聽
  4. Biographical Overview of Marshall Nirenberg:聽

Green Fluorescent Protein

  1. Golden Goose Awardee 2012: Green Fluorescent Protein:聽

mRNA Vaccine

  1. Decades in the Making: mRNA COVID-19 Vaccines:聽
  2. Coronavirus Vaccines and Prevention:聽
  3. COVID-19 mRNA Vaccines:聽
  4. Article: A gamble pays off in 鈥榮pectacular success鈥: How the leading coronavirus vaccines made it to the finish line:聽
  5. Shepherd BO, et al.聽Curr HIV/AIDS Rep. 2022;19(1):86-93. PMID:聽.

Gene Editing

  1. Gene Editing:聽/news-events/gene-editing-digital-press-kit
  2. Estimates of Funding for Various Research, Condition, and Disease Categories (RCDC):聽

Nobel Prizes

  1. NIH Nobel Laureates:聽/about-nih/what-we-do/nih-almanac/nobel-laureates
  2. The Nobel Prize:聽
  3. NIH Intramural Research Program Nobel Prizes:聽
  4. NIH Intramural Research Program Lasker Awards:聽

This page last reviewed on March 1, 2023