chemical compound
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External Websites
- National Center for Biotechnology Information - The Structure and Function of DNA
- Khan Academy - DNA
- Healthline - DNA explained and explored
- Biology LibreTexts - DNA
- Live Science - DNA: Definition, Structure & Discovery
- Genetic Home Reference - What Is DNA?
- National Human Genome Research Institute - Deoxyribonucleic Acid (DNA) fact sheet
- Nature - What Rosalind Franklin truly contributed to the discovery of DNA’s structure
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Articles from Britannica Encyclopedias for elementary and high school students.
- DNA - Children's Encyclopedia (Ages 8-11)
- DNA - Student Encyclopedia (Ages 11 and up)
Also known as: deoxyribonucleic acid
Written and fact-checked by
The Editors of Encyclopaedia Britannica
Last Updated: •Article History
- Abbreviation of:
- deoxyribonucleic acid
- Key People:
- J. Craig Venter
- Rudolf Jaenisch
- Stephen J. Elledge
- Evelyn M. Witkin
- James Watson
- Related Topics:
- Holliday junction
- deoxyribose
- minisatellite DNA
- chromatin
- double helix
See all related content
Top Questions
What does DNA do?
What does DNA do?
Deoxyribonucleic acid (DNA) is an organic chemical that contains genetic information and instructions for protein synthesis. It is found in most cells of every organism. DNA is a key part of reproduction in which genetic heredity occurs through the passing down of DNA from parent or parents to offspring.
What is DNA made of?
What is DNA made of?
DNA is made of nucleotides. A nucleotide has two components: a backbone, made from the sugar deoxyribose and phosphate groups, and nitrogenous bases, known as cytosine, thymine, adenine, and guanine. Genetic code is formed through different arrangements of the bases.
Who discovered the structure of DNA?
Who discovered the structure of DNA?
The discovery of DNA’s double-helix structure is credited to the researchers James Watson and Francis Crick, who, with fellow researcher Maurice Wilkins, received a Nobel Prize in 1962 for their work. Many believe that Rosalind Franklin should also be given credit, since she made the revolutionary photo of DNA’s double-helix structure, which was used as evidence without her permission.
Can you edit DNA?
Can you edit DNA?
Gene editing today is mostly done through a technique called Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR), adopted from a bacterial mechanism that can cut out specific sections in DNA. One use of CRISPR is the creation of genetically modified organism (GMO) crops.
What’s the difference between DNA and RNA?
What’s the difference between DNA and RNA?
DNA is the master blueprint for life and constitutes the genetic material in all free-living organisms. RNA uses DNA to code for the structure of proteins synthesized in cells. Learn more about the differences between DNA and RNA.
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DNA, organic chemical of complex molecular structure that is found in all prokaryotic and eukaryotic cells and in many viruses. DNA codes genetic information for the transmission of inherited traits.
A brief treatment of DNA follows. For full treatment, see genetics: DNA and the genetic code.
The chemical DNA was first discovered in 1869, but its role in genetic inheritance was not demonstrated until 1943. In 1953 James Watson and Francis Crick, aided by the work of biophysicists Rosalind Franklin and Maurice Wilkins, determined that the structure of DNA is a double-helix polymer, a spiral consisting of two DNA strands wound around each other. The breakthrough led to significant advances in scientists’ understanding of DNA replication and hereditary control of cellular activities.
More From BritannicaWhat Is the Difference Between DNA and RNA?Each strand of a DNA molecule is composed of a long chain of monomer nucleotides. The nucleotides of DNA consist of a deoxyribose sugar molecule to which is attached a phosphate group and one of four nitrogenous bases: two purines (adenine and guanine) and two pyrimidines (cytosine and thymine). The nucleotides are joined together by covalent bonds between the phosphate of one nucleotide and the sugar of the next, forming a phosphate-sugar backbone from which the nitrogenous bases protrude. One strand is held to another by hydrogen bonds between the bases; the sequencing of this bonding is specific—i.e., adenine bonds only with thymine, and cytosine only with guanine.
The configuration of the DNA molecule is highly stable, allowing it to act as a template for the replication of new DNA molecules, as well as for the production (transcription) of the related RNA (ribonucleic acid) molecule. A segment of DNA that codes for the cell’s synthesis of a specific protein is called a gene.
DNA replicates by separating into two single strands, each of which serves as a template for a new strand. The new strands are copied by the same principle of hydrogen-bond pairing between bases that exists in the double helix. Two new double-stranded molecules of DNA are produced, each containing one of the original strands and one new strand. This “semiconservative” replication is the key to the stable inheritance of genetic traits.
Within a cell, DNA is organized into dense protein-DNA complexes called chromosomes. In eukaryotes, the chromosomes are located in the nucleus, although DNA also is found in mitochondria and chloroplasts. In prokaryotes, which do not have a membrane-bound nucleus, the DNA is found as a single circular chromosome in the cytoplasm. Some prokaryotes, such as bacteria, and a few eukaryotes have extrachromosomal DNA known as plasmids, which are autonomous, self-replicating genetic material. Plasmids have been used extensively in recombinant DNA technology to study gene expression.
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The genetic material of viruses may be single- or double-stranded DNA or RNA. Retroviruses carry their genetic material as single-stranded RNA and produce the enzyme reverse transcriptase, which can generate DNA from the RNA strand. Four-stranded DNA complexes known as G-quadruplexes have been observed in guanine-rich areas of the human genome.
The Editors of Encyclopaedia BritannicaThis article was most recently revised and updated by Meg Matthias.