Heterologous expression refers to the expression of a gene or part of a gene in a host organism that does not naturally have the gene or gene fragment in question. Insertion of the gene in the heterologous host is performed by recombinant DNA technology. The purpose of heterologous expression is often to determine the effects of mutations and differential interactions on protein function. It provides an easy path to efficiently express and experiment with combinations of genes and mutants that do not naturally occur.
Depending on the duration of recombination in the host genome, two types of heterologous expression are available, long-term (stable) and short-term (transient). Long-term is a potentially permanent integration into the gene and short-term is a temporary modification that lasts for 1 to 3 days.[1]
After being inserted in the host, the gene may be integrated into the host DNA, causing permanent expression, or not integrated, causing transient expression. Heterologous expression can be done in many types of host organisms. The host organism can be a bacterium, yeast, mammalian cell, or plant cell. This host is called the "expression system". Homologous expression, on the other hand, refers to the overexpression of a gene in a system from where it originates.