Competence (biology)
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In [[microbiology]], [[genetics]], [[cell biology]] and [[molecular biology]], '''competence''' is the ability of a [[cell (biology)|cell]] to take up extracellular ("naked") [[DNA]] from its environment. Competence is distinguished into ''natural competence'', a genetically specified ability of [[bacteria]] that is thought to occur under natural conditions as well as in the laboratory, and ''induced'' or ''artificial competence'', arising when cells in laboratory cultures are treated to make them transiently permeable to DNA. This article is mainly about natural competence in Bacteria. Information about artificial competence is provided in the [[Transformation (genetics)]] article.
==History==
Natural competence was discovered by [[Frederick Griffith]] in [[1928]], when he showed that a preparation of killed cells of a pathogenic bacterium contained something that could transform related non-pathogenic cells into the pathogenic type. In [[1944]] [[Oswald Avery]], [[Colin MacLeod]], and [[Maclyn McCarty]] demonstrated that this 'transforming factor' was pure [[DNA]]. This was the first compelling evidence that DNA carries the genetic information of the cell.
Since then, natural competence has been studied in a number of different bacteria, particularly [[Bacillus subtilis|''Bacillus subtilis'']], [[Streptococcus pneumoniae|''Streptococcus pneumoniae'']] (Griffith's "pneumococcus"), [[Neisseria gonorrhoeae|''Neisseria gonorrhoeae'']] and [[Haemophilus influenzae|''Haemophilus influenzae'']]. Areas of active research include the mechanisms of DNA transport, the regulation of competence in different bacteria, and the evolutionary function of competence.
==Mechanisms of DNA uptake==
In the natural world DNA usually becomes available by death and [[lysis]] of other cells, but in the laboratory it is provided by the researcher, often as a genetically engineered fragment or plasmid. During uptake, DNA is transported across the [[cell membrane|cell membrane(s)]], and the [[cell wall]] if one is present. Once the DNA is inside the cell it may be degraded to [[nucleotides]], which are reused for [[DNA synthesis|DNA replication]] and other [[metabolism|metabolic]] functions. Alternatively it may be [[genetic recombination|recombined]] into the cell’s [[genome]] by its [[DNA repair]] enzymes. If this recombination changes the cell’s [[genotype]] the cell is said to have been transformed. Artificial competence and transformation are used as research tools in many organisms (''see [[Transformation (genetics)]]'').<ref>{{cite journal |author=Chen I, Dubnau D |title=DNA uptake during bacterial transformation |journal=Nat. Rev. Microbiol. |volume=2 |issue=3 |pages=241–9 |year=2004 |pmid=15083159 |doi=10.1038/nrmicro844}}</ref>
Almost all naturally competent bacteria use components of extracellular filaments called type 4 pili (a type of [[pilus|fimbria]]) to create pores in their membranes and pull DNA through the pores into the cytoplasm. Some bacteria cut the DNA into short pieces before transporting it; others can take up very long intact fragments and circular plasmids. The details of the uptake machinery are not yet well characterized in any system.
==Regulation of competence==
In laboratory cultures natural competence is usually tightly regulated and often triggered by nutritional shortages or adverse conditions. However the specific inducing signals and regulatory machinery are much more variable than the uptake machinery, and little is known about the regulation of competence in the natural environments of these bacteria.<ref>{{cite journal |author=Solomon JM, Grossman AD |title=Who's competent and when: regulation of natural genetic competence in bacteria |journal=Trends Genet. |volume=12 |issue=4 |pages=150–5 |year=1996 |pmid=8901420 |doi=}}</ref> In bacteria capable of forming [[endospore|spores]], conditions inducing sporulation often overlap with those inducing competence. Thus cultures or colonies containing sporulating cells often also contain competent cells. Recent research by Süel et al. has identified an excitable core module of genes which can explain entry into and exit from competence when [[cellular noise]] is taken into account.<ref>{{cite journal |author=Süel GM, Garcia-Ojalvo J, Liberman LM, and Elowitz MB |title=An excitable gene regulatory circuit induces transient cellular differentiation |journal=Nature |volume=440 |pages=545-50 |year=2006 |pmid= |doi=10.1038/nature04588}}</ref>
Most competent bacteria are thought to take up all DNA molecules with roughly equal efficiencies, but bacteria in the families [[Neisseriaceae]] and [[Pasteurellaceae]] preferentially take up DNA fragments containing short DNA sequences that are very frequent in their own genomes. Neisserial genomes contain thousands of copies of the preferred sequence ATGCCGTCTGAA, and Pasteurellacean genomes contain either AAGTGCGGT or ACAAGCGGT, with corresponding biases of their DNA uptake machinery.
==Evolutionary functions and consequences of competence==
The [[evolution]]ary functions of natural competence are controversial. Competence has conventionally been viewed as a mechanism that cells evolved to provide themselves with novel genetic information. However the theoretical difficulties associated with the [[evolution of sexual reproduction|evolution of sex]] suggest that this explanation is problematic. Cells that take up DNA inevitably acquire the nucleotides the DNA consists of, and, because nucleotides are needed for DNA and RNA synthesis and are expensive to synthesize, these may make a significant contribution to the cell's energy budget.<ref>{{cite journal |author=Redfield RJ |title=Do bacteria have sex? |journal=Nat. Rev. Genet. |volume=2 |issue=8 |pages=634–9 |year=2001 |pmid=11483988 |doi=10.1038/35084593}}</ref> In principle, competence could also allow cells to replace heavily damaged DNA in the cell's genome if needed.
Regardless of the nature of selection for competence, the composite nature of bacterial genomes provides abundant evidence that the [[lateral gene transfer]] caused by competence contributes to the genetic diversity that makes evolution possible.
==References==
<references/>
==See also==
* [[Transformation (genetics)]]
[[Category:Biology]]
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