extragenic - перевод на арабский
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extragenic - перевод на арабский

CHANGE OF THE NUCLEOTIDE SEQUENCE OF THE GENOME OF AN ORGANISM
Mutations; Genetic mutation; Mutates; Mutate; Mutation and disease; Gene mutation; Loss-of-function mutation; Gain-of-function mutation; Neomorphic mutation; Antimorphic mutation; Amorphic mutation; Loss-of-function; Mutant allele; Genetic mutations; Conditional lethal mutation; Conditional mutation; Mutation event; Loss of function; Mutated; Spontaneous mutation; Mutant proteins; Nuclear mutation; Reversion (genetics); Genetic damage; DNA mutations; Chromosomal gain; Beneficial mutation; Acquired genetic mutation; Reverse mutation; Genetic changes; Mutating; Viral mutation; Backmutation; Back-mutation; Gene mutation analysis; Extragenic; Radiation genetics; Mutant Proteins; DNA error; In-frame mutation; In-frame deletion; DNA mutation; Mutational; Distribution of fitness effects; Types of mutation; Sporadic mutation; Harmful mutation; Deleterious mutation; Sport (genetics); Mutation (biology); Inactivating mutation; De novo mutations; Activating mutations; Mutant spectrum; Deformation (biology); Loss-of-function mutant; Gain of function mutation; Substitution (genetics); Loss of function mutation
  • date=31 December 2015 }}</ref>
  • Five types of chromosomal mutations
  • fitness]] of each mutant was compared with the ancestral type. A fitness of zero, less than one, one, more than one, respectively, indicates that mutations are lethal, deleterious, neutral, and advantageous.<ref name="Sanjuán04" />
  • A red [[tulip]] exhibiting a partially yellow petal due to a mutation in its genes
  • Types of small-scale mutations
  • This figure shows a simplified version of loss-of-function, switch-of-function, gain-of-function, and conservation-of-function mutations.
  • translational]] regulation of [[gene expression]].
  • Selection of disease-causing mutations, in a standard table of the [[genetic code]] of [[amino acid]]s<ref>References for the image are found in Wikimedia Commons page at: [[Commons:File:Notable mutations.svg#References]].</ref>
  • Point mutations classified by impact on protein
  • somatic]] mutation that may also be passed on in the [[germline]].
  • ''[[Prodryas persephone]]'', a Late [[Eocene]] butterfly
  • Mutation with double bloom in the Langheck Nature Reserve near [[Nittel]], Germany

extragenic         
‎ خارِجَ الجين‎
extragenic         
خارِجَ الجين
MUTATING         

الفعل

بَدَّلَ ; تَغَيَّرَ

Определение

Mutation
·noun Change; alteration, either in form or qualities.
II. Mutation ·add. ·noun The result of the above process; a suddenly produced variation.
III. Mutation ·add. ·noun Gradual definitely tending variation, such as may be observed in a group of organisms in the fossils of successive geological levels.
IV. Mutation ·add. ·noun As now employed (first by de Vries), a sudden variation (the offspring differing from its parents in some well-marked character or characters) as distinguished from a gradual variations in which the new characters become fully developed only in the course of many generations. The occurrence of mutations, and the hereditary transmission, under some conditions, of the characters so appearing, are well-established facts; whether the process has played an important part in the evolution of the existing species and other groups of organisms is a disputed question.

Википедия

Mutation

In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, mitosis, or meiosis or other types of damage to DNA (such as pyrimidine dimers caused by exposure to ultraviolet radiation), which then may undergo error-prone repair (especially microhomology-mediated end joining), cause an error during other forms of repair, or cause an error during replication (translesion synthesis). Mutations may also result from insertion or deletion of segments of DNA due to mobile genetic elements.

Mutations may or may not produce detectable changes in the observable characteristics (phenotype) of an organism. Mutations play a part in both normal and abnormal biological processes including: evolution, cancer, and the development of the immune system, including junctional diversity. Mutation is the ultimate source of all genetic variation, providing the raw material on which evolutionary forces such as natural selection can act.

Mutation can result in many different types of change in sequences. Mutations in genes can have no effect, alter the product of a gene, or prevent the gene from functioning properly or completely. Mutations can also occur in non-genic regions. A 2007 study on genetic variations between different species of Drosophila suggested that, if a mutation changes a protein produced by a gene, the result is likely to be harmful, with an estimated 70% of amino acid polymorphisms that have damaging effects, and the remainder being either neutral or marginally beneficial. Due to the damaging effects that mutations can have on genes, organisms have mechanisms such as DNA repair to prevent or correct mutations by reverting the mutated sequence back to its original state.