Form of chromosome mutation in which parts of chromosomes are exchanged both within a chromosome and between chromosomes. As with other mutations, this changes the structure of the chromosome. This can result in an altered sequence of genes - with specific consequences.
- In a balanced translocation, chromosomes or a part of them are transferred to another chromosome. This translocation is balanced if the total amount of genetic material is unchanged and no gene is damaged at the chromosome breakpoints. This mutation does not affect the phenotypic characteristics of the organism.
- In the case of an unbalanced translocation, the amount of genetic material is changed by the loss or addition of a chromosome or part of a chromosome. An example of this is translocation trisomy 21, where the inheritance of translocation chromosomes can result in a genome with excess or missing chromosome parts (partial trisomies or monosomies). This mutation can cause numerous phenotypic anomalies and malformations.
- Reciprocal translocation involves a reciprocal exchange of non-homologous chromosomes, whereby the total number of genes remains the same. The translocation is balanced (e.g. Philadelphia chromosome).
- In centric fusion or "Robertson translocation", two so-called acrocentric chromosomes combine to form a new, larger chromosome. This mutation can be balanced or unbalanced. In this translocation, a centromere and the short arms of the chromosomes involved (these are without genetic information) are lost (see illustration). Acrocentric chromosomes are chromosomes 13, 14, 15, 21, 22. These chromosomes can fuse centrally with each other.