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From Wikipedia, the free encyclopedia
Plasmids are circular DNA molecules that are separate from the chromosomal DNA (Fig. 1). They usually occur in bacteria, sometimes in eukaryotic organisms (e.g., the 2-micron-ring in Saccharomyces cereviesiae). Their size varies from 1 to 250 kbp or thousand base pairs.N. There are from one copy, for large plasmids, to fifty copies of the same plasmid present in a single cell.
Plasmids usually contain one or two genes that confer a selective advantage on the bacterium harboring them, e.g., the ability to build an antibiotic resistance. Every plasmid contains at least one DNA sequence that serves as an origin of replication or ori (a starting point for DNA replication), which enables the plasmid DNA to be duplicated independently from the chromosomal DNA (Fig. 2).
Episomes are plasmids that can integrate themselves into the chromosomal DNA of the host organism (Fig. 3). For this reason, they can stay intact for a long time, be duplicated with every cell division of the host, and become a basic part of its genetic makeup.
There are two basic groups of plasmids, conjugative and non-conjugative. Conjugative plasmids contain a so-called tra-gene, which can initiate conjugation, the sexual exchange of plasmids, with another bacterium (Fig. 4). Non-conjugative plasmids are incapable of initiating conjugation, and therefore, their movement to another bacterium, but they can be transferred together with conjugative plasmids, during conjugation.
Several different types of plasmids can coexist in a single cell, e.g., up to seven in E. coli. Two plasmids can be incompatible, resulting in the destruction of one of them. Therefore, plasmids can be assigned into incompatability groups, depending on their ability to coexist in a single cell.
An obvious way of classifying plasmids is by function. There are five main classes:
Plasmids serve as important tools in genetics and biochemical labs, where they are commonly used to multiply or expressN particular genes. There are many plasmids that are commercially available for such uses. Initially, the gene to be replicated is inserted in a plasmid. But, these plasmids contain, in addition to the inserted gene, one or more genes with antibiotic resistance. The plasmids are next inserted into bacteria, which are then grown on specific antibiotic(s). As a result, only the bacteria with antibiotic resistance can survive, the very same bacteria containing the genes to be replicated. The antibiotic(s) will, however, kill those bacteria that did not receive a plasmid, because they have no antibiotic resistance genes. In this way the antibiotic(s) acts as a filter selecting out only the modified bacteria. This is a cheap and easy way of mass-producing a gene or the protein it codes for--for example, insulin or even antibiotics.
Lewin, Benjamin. Genes V. Oxford: Oxford University Press, 1994.
Stryer, Lubert. Biochemistry. 4th ed. New York: W. H. Freeman and Co., 1997.
1. DNA is double-stranded, and therefore, it is measured in complementary DNA building blocks called base pairs.
2. To express a gene means to produce the protein that the gene codes for.
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