What is the Difference Between Multigene Families and Superfamilies?
🆚 Go to Comparative Table 🆚The main difference between multigene families and superfamilies lies in the relationships between their member genes and proteins, as well as their functions. Here are the key distinctions:
- Multigene Families:
- Groups of genes with sequence homology (similar sequences).
- Related overlapping functions.
- Typically consist of members with similar sequences and functions.
- Often share regulatory control elements due to their similarity.
- Examples include immunoglobulins and globins.
- Superfamilies:
- Groups of proteins or genes of common origin.
- Non-overlapping functions.
- Much larger than single multigene families, containing up to hundreds of genes, including multiple multigene families as well as single, individual gene members.
- The globin superfamily of genes is a common example.
In summary, multigene families are groups of genes with similar sequences and overlapping functions, while superfamilies are groups of proteins or genes with a common origin but non-overlapping functions. Superfamilies are larger and more diverse than multigene families, containing multiple multigene families and individual gene members.
Comparative Table: Multigene Families vs Superfamilies
Here is a table comparing the differences between multigene families and superfamilies:
| Feature | Multigene Families | Superfamilies |
|---|---|---|
| Definition | Groups of genes with sequence homology and related overlapping functions. | Groups of proteins or genes of common origin with non-overlapping functions. |
| Size | Usually smaller, containing up to hundreds of genes. | Much larger, often containing multiple multigene families. |
| Sequence Similarity | Members share nearly identical sequences. | Gene sequences are diverse. |
| Function | Genes have related biochemical functions. | Genes have diverse functions. |
| Regulation | Genes have separate regulation controls. | Genes have separate regulation controls. |
| Examples | Actins, immunoglobulins, tubulins, hemoglobins, interferons, histones. | The globin superfamily of genes. |
Multigene families are composed of genes with sequence homology and related overlapping functions, while superfamilies are groups of proteins or genes of common origin with non-overlapping functions. Multigene families are generally smaller, containing up to hundreds of genes, whereas superfamilies are much larger, often containing multiple multigene families. Members of multigene families share nearly identical sequences, but gene sequences in superfamilies are diverse. Genes in multigene families have related biochemical functions, while genes in superfamilies have diverse functions. Both multigene families and superfamilies have separate regulation controls for their genes. Examples of multigene families include actins, immunoglobulins, tubulins, hemoglobins, interferons, and histones, while the globin superfamily of genes is an example of a superfamily.
- Family vs Families
- Multiple vs Multilevel Inheritance
- Multifactorial vs Polygenic Traits
- Family Tree DNA vs Ancestry DNA
- Nuclear Family vs Extended Family
- Family vs Kinship
- Synapomorphy vs Symplesiomorphy
- Orthologous vs Paralogous Genes
- Family vs Relatives
- Haplogroup vs Haplotype
- Gene vs Genome
- Monophyletic Paraphyletic vs Polyphyletic
- Multiple Alleles vs Polygenic Traits
- Genetics vs Genomics
- Genetic Diversity vs Species Diversity
- Cladogram vs Phylogenetic Tree
- Monogenic vs Polygenic Inheritance
- Taxonomy vs Phylogeny
- Superclass vs Subclass