Nucleic acid

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Schematic diagram of a double-stranded nucleic acid. Yellow-green shaded circles represent phosphate; green-hatched circles represent pentose; red-slashed circles represent nitrogenous bases. Solid lines represent covalent bonds; dotted lines represent hydrogen bonds.

A nucleic acid is a complex, high-molecular-weight biochemical macromolecule composed of nucleotide chains that convey genetic information. The most common nucleic acids are deoxyribonucleic acid (DNA) and ribonucleic acid (RNA). Nucleic acids are found in all living cells and viruses.

Chemical structure

The term "nucleic acid" is termed because of its prevalence in cellular nuclei, is the generic name of a family of biopolymers. The monomers themselves are called nucleotides. Each monomer consists of three components: a nitrogenous heterocyclic base, either a purine or a pyrimidine; a pentose sugar, and a phosphate group. Different nucleic acid types differ in the specific sugar found in their chain. For example, DNA contains 2-deoxyriboses. Likewise, the nitrogenous bases possible in the two nucleic acids are different: adenine, cytosine, and guanine are possible in both RNA and DNA, while thymine is possible only in DNA and uracil is possible only in RNA.

Nucleic acids may be single-stranded or double-stranded. A double-stranded nucleic acid consists of two single-stranded nucleic acids hydrogen-bonded together. RNA is usually single-stranded, but any given strand is likely to fold back upon itself to form double-helical regions. DNA is usually double-stranded, though some viruses have single-stranded DNA as their genome. The sugars and phosphates in nucleic acids are connected to each other in an alternating chain, linked by shared oxygens, forming a phosphodiester functional group. In conventional nomenclature, the carbons to which the phosphate groups are attached are the 3' and the 5' carbons. The bases extend from a glycosidic linkage to the 1' carbon of the pentose ring.

Hydrophobic interaction of nucleic acids is poorly understood. For example, nucleic acids are insoluble in ethanol, TCA, cold and hot water, and diluted hydrochloric acid; but they are soluble in diluted NaOH, alcohol and HCl.

In biology

Nucleic acids are primarily biology's means of storing and transmitting genetic information, though RNA is also capable of acting as an enzyme.

There are various common sources of DNA and RNA:

Calf thymus DNA provides large linear DNA. It contains many breaks.
T4 phage DNA is circular and can be isolated intact.
Teichoic acids present in the cell walls of some gram-positive bacteria present a chemical structure resembling nucleic acids without the nucleobases.

External links

[An Ambigraphic Nucleic Acid Notation]

For a full list of external links to MSDSs, spectroscopic data, commercial chemicals suppliers etc. for this compound, see [Chemical sources].

Nucleic acids [http://encycl.opentopia.com/ edit]
Nucleobases: Adenine \| Thymine \| Uracil \| Guanine \| Cytosine \| Purine \| Pyrimidine
Nucleosides: Adenosine \| Uridine \| Guanosine \| Cytidine \| Deoxyadenosine \| Thymidine \| Deoxyguanosine \| Deoxycytidine
Nucleotides: AMP \| UMP \| GMP \| CMP \| ADP \| UDP \| GDP \| CDP \| ATP \| UTP \| GTP \| CTP \| cAMP \| cGMP
Deoxynucleotides: dAMP \| dTMP \| dGMP \| dCMP \| dADP \| dTDP \| dGDP \| dCDP \| dATP \| dTTP \| dGTP \| dCTP
Nucleic acids: DNA \| mtDNA \| cDNA \| GNA \| RNA \| mRNA \| tRNA \| rRNA \| ncRNA \| sgRNA \| shRNA \| siRNA \| snRNA \| miRNA \| snoRNA \| LNA \| PNA \| TNA \| Oligonucleotide

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