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(biology) an organism that has characteristics resulting from chromosomal alteration (genetics) any event that changes genetic structure any alteration in the inherited nucleic acid sequence of the genotype of an organism a change or alteration in form or qualities
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Wikipedia
otheruses In biology, mutations are permanent, sometimes transmissible (if the change is to a germ cell) changes to the genetic material (usually DNA or RNA) of a cell (biology) cell. Mutations can be caused by copying errors in the genetic material during cell division and by exposure to radiation, chemicals, or virus (biology)viruses, or can occur deliberately under cellular control during the processes such as meiosis or hypermutation. In multicellular organisms, mutations can be subdivided into ''germline mutations,'' which can be passed on to progeny and ''somatic mutations,'' which (when accidental) often lead to the malfunction or death of a cell and can cause cancer. Mutations are considered the driving force of evolution, where less favorable (or ''deleterious'') mutations are removed from the gene pool by natural selection, while more favorable (or ''beneficial'') ones tend to accumulate. Neutral theory of molecular evolutionNeutral mutations do not affect the organism's chances of survival in its natural environment and can accumulate over time, which might result in what is known as punctuated equilibrium, a disputed interpretation of the fossil record.Contrary to tales of science fiction, the overwhelming majority of mutations have no significant effect. Visible effects are especially rare, since DNA repair is able to reverse most changes before they become permanent mutations.
Structural classification - Structurally, mutations can be classified as: Small-scale mutations affecting one or a few nucleotides, including:* Point mutations, often caused by chemicals or malfunction of DNA replication, exchange a single nucleotide for another. Most common is the transition that exchanges a purine for a purine (A ↔ G) or a pyrimidine for a pyrimidine, (C ↔ T). A transition can be caused by nitrous acid, base mispairing, or mutagenic base analogs such as BrdU5-bromo-2-deoxyuridine (BrdU). Less common is a transversion, which exchanges a purine for a pyrimidine or a pyrimidine for a purine (C/T ↔ A/G). A point mutation can be reversed by another point mutation, in which the nucleotide is changed back to its original state (true reversion) or by second-site reversion (a complementary mutation elsewhere that results in regained gene functionality). These changes are classified as transitions or transversions. An example of a transversion is adenine being converted into a cytosine. There are also many other examples that can be found. There are three kinds of point mutations, depending upon what the erroneous codon codes for: ** silent mutations: codes for the same amino acid, so has no effect** missense mutations: codes for a different amino acid ** nonsense mutations: codes for a stop, which can truncate the protein (mutations that give a UAG stop codon are known as amber mutations)* Insertions add one or more extra nucleotides into the DNA. They are usually caused by transposable elements, or errors during replication of repeating elements (e.g. AT repeats). Most insertions in a gene can either alter splicing of the RNAmRNA, or cause a shift in the reading frame (frameshift), both of which can significantly alter the gene product. Insertions can be reverted by excision of the transposable element.* Gene deletionDeletions remove one or more nucleotides from the DNA. Like insertions, these mutations can alter the reading frame of the gene. They are irreversible. Large-scale mutations in chromosomechromosomal structure, including:* Amplifications (or gene duplications) leading to multiple copies of chromosomal regions, increasing the dosage of the genes located within them.* Gene deletionDeletions of large chromosomal regions, leading to loss of the genes within those regions.* Mutations whose effect is to juxtapose previously separate pieces of DNA, potentially bringing together separate genes to form functionally distinct fusion genes (e.g. bcr-abl). These include:** Chromosomal translocations: attaching DNA from separate chromosomes.** Interstitial deletions: removing regions of DNA from a single chromosome, thereby apposing previously distant genes (e.g. fig-ros).** Chromosomal inversions: switching the orientation of a segment of a chromosome, thereby apposing its ends to previously distant genes.*Loss of heterozygosity: loss of one allele, either by a deletion or recombination event, in organisms which previously had two.
Functional classification - Mutations in genes can be classified according to how they change the function or expression of the gene product. The following terms describe mutations that affect the gene product directly: Loss-of-function mutations are the result of the protein encoded by the gene having less or no function. When the allele has a complete loss of function (null allele) it is often called an amorphic mutation. Phenotypes associated with such mutations are most often recessive. Exceptions are when the organism is haploid, or when the reduced dosage of normal gene product is not enough for normal phenotype (this is called haploinsufficiency). Gain-of-function mutations change the gene product such that it gains a new and abnormal function. These mutations usually have dominant genedominant phenotypes. Dominant negative mutations (also called antimorphic mutations) have an altered gene product that acts antagonistically to the wild-type allele. These mutations usually result in an altered molecular function (often inactive) and are characterised by a Dominant genedominant or incomplete dominancesemi-dominant phenotype.Some characterizations also include mutations that affect expression of a gene: Hypomorphic mutations are mutations that cause reduced function of the gene product, or a negative change in expression of the gene. Hypermorphic mutations are the opposite of hypomorphic mutations; they cause increased activity or expression of the gene product. Neomorphic mutations cause a novel molecular function or expression of the gene product.The following types of mutations are classified according to their phenotypic results: Morphological mutations usually affect the outward appearance of an individual. Mutations can change the height of a plant or change it from smooth to rough seeds. Biochemical mutations result in lesions stopping the enzymatic pathway. Often, morphological mutants are the direct result of a mutation due to the enzymatic pathway.
Causes of mutation - Two classes of mutations are spontaneous mutations (molecular decay) and induced mutations caused by mutagens.Spontaneous mutations on the molecular level include: Tautomerism - A base is changed by the repositioning of a hydrogen atom. Depurination - Loss of a purine base (A or G). Deamination - Changes a normal base to an atypical base; C → U, or A → HX (hypoxanthine). Transition - A purine changes to another purine, or a pyrimidine to a pyrimidine. Transversion - A purine becomes a pyrimidine, or vice versa.Induced mutations on the molecular level can be caused by: Chemicals* Nitrosoguanidine (NTG)* Base analogs (e.g. BrdU)* Simple chemicals (e.g. acids)* Alkylating agents (e.g. ENU''N''-ethyl-''N''-nitrosourea (ENU)) These agents can mutate both replicating and non-replicating DNA. In contrast, a base analog can only mutate the DNA When the analog is incorporated in replicating the DNA. Each of these classes of chemical mutagens has certain effects that then lead to transitions, tranversions, or deletions.* Methylating agents (e.g. ethane methyl sulfonate (EMS))* Polycyclic hydrocarbons (e.g. benzpyrenes found in internal combustion engine exhaust)* DNA intercalating agents (e.g. ethidium bromide)* DNA crosslinker (e.g. platinum)* Oxidative damage caused by oxygen radicals Radiation* Ultraviolet radiation* Ionizing radiationDNA has so-called hotspots, where mutations occur up to 100 times more frequently than the normal mutation rate. A hotspot can be at an unusual base, e.g., 5-methylcytosine.Mutation rates also vary across species. Evolutionary biologists have theorized that higher mutation rates are beneficial in some situations, because they allow organisms to evolve and therefore adapt faster to their environments.
Mutation and disease - Changes in DNA caused by mutation can cause errors in protein sequence, creating partially or completely non-functional proteins. To function correctly, each cell depends on thousands of proteins to function in the right places at the right times. When a mutation alters a protein that plays a critical role in the body, a medical condition can result. A condition caused by mutations in one or more genes is called a genetic disorder. If a mutation is present in a germ cell, this can give rise to offspring that carries the mutation in all of its cells. This is the case in hereditary diseases. On the other hand, a mutation can occur in a somatic cell of an organism. Such mutations will be present in all descendants of this cell, and certain mutations can cause the cell to become malignant, and thus cause cancer.Often, gene mutations that could cause a genetic disorder are repaired by the DNA repair system of the cell. Each cell has a number of pathways through which enzymes recognize and repair mistakes in DNA. Because DNA can be damaged or mutated in many ways, the process of DNA repair is an important way in which the body protects itself from disease.
See also - Homeobox Macromutation Mutant
References - Maki H. 2002. Origins of spontaneous mutations: specificity and directionality of base-substitution, frameshift, and sequence-substitution mutageneses. Annual Review of Genetics 36:279-303.
External links - !Wikibooks:Mutation_(General_Bi ology)The mutations chapter of the WikiBooks General Biology textbook evowiki.org - EvoWiki: Mutationevolution Category:Evolutionary !biologyCategory:GeneticsCatego ry:Mutation!*de:Mutationet:Mutatsioones:Mu tacióneo:Mutacioko:돌연변 he:מוטציהnl:Mutatieja: 突然変異pl:Mutacja? !(genetyka)pt:Mutaçãosv:Mutat ionzh:突变eo:mutacio?
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