gene conversion

It is believed that the event called gene conversion may be the cause of such resurrection.

Gene conversion is another example of a type of phase variation.

Potential gene conversion and source genes for recently integrated Alu elements.

Gene conversion can be one of the major forms of non-Mendelian inheritance.

The effective homology between the interacting sequences makes the gene conversion event successful.

Depending on how this structure is resolved (taken apart) either cross-over or gene conversion products result.

Gene conversion may lead to non-Mendelian inheritance and has often been recorded in fungal crosses.

Homogenization of alleles by gene conversion may play a role in sexual reproducing organisms.

Gene conversion events can occur between different members of a gene family situated on the same chromosome.

In this scenario, gene conversion is of potential benefit in maintaining homogeneity between copies.

Gene conversion can be viewed as the force acting to create sequence identity within the gene pool of a species.

Such a "recombination" is called gene conversion.

In the case of the Y, the alignment of the palindromic sequences leads to gene conversion.

This enzyme is also responsible for helping with gene conversion during somatic recombination in B cells.

It is thought that gene conversion events may involve the two genes, leading to varying copy numbers of each gene.

One of the possibilities is the resurrection of the pseudogenes due to some biological events like gene conversion.

Repetitive sequences play the role of uncoupling the gene conversion network, thereby allowing new genes to evolve.

DNA sequences are linked together in a gene pool by gene conversion events.

If the interlocus gene conversion events are compared, it will be frequently revealed that they exhibit biased directionality.

Mutant alleles result from recombination between the active and pseudo genes (gene conversion).

Gene conversion acts on DNA sequence homology as its substrate.

The process of mating type switching is a gene conversion event initiated by the HO gene.

They do this by uncoupling similar DNA sequences from gene conversion during meiosis.

Others may represent loss of function mutations, possibly due to the action of biased gene conversion rather than adaptive evolution.

In gene conversion, a section of genetic material is copied from one chromosome to another, without the donating chromosome being changed.