What is the Difference Between Metacentric and Submetacentric Chromosomes?
🆚 Go to Comparative Table 🆚The difference between metacentric and submetacentric chromosomes lies in the position of the centromere, which is the constriction point of the chromosome. Chromosomes are categorized into different types based on the position of the centromere, including metacentric, submetacentric, acrocentric, and telocentric chromosomes.
- Metacentric chromosomes have the centromere located in the middle of the chromosome, resulting in equal-sized p and q arms. Examples of metacentric chromosomes in humans include chromosomes 1, 3, 16, 19, and 20.
- Submetacentric chromosomes have the centromere placed slightly off-center, leading to a shorter p arm relative to the q arm. Most chromosomes in humans are submetacentric, such as chromosomes 2, 4-12, 17, 18, and X.
In both metacentric and submetacentric chromosomes, the centromere's position plays a crucial role in the separation of chromosomes into daughter cells during cell division (mitosis).
Comparative Table: Metacentric vs Submetacentric Chromosomes
Here is a table comparing the differences between metacentric and submetacentric chromosomes:
Feature | Metacentric Chromosomes | Submetacentric Chromosomes |
---|---|---|
Centromere | Located at the midpoint of the chromosome | Located slightly off-center, resulting in one long arm and one short arm |
Arm Length | Both arms (p and q) are equal in length | The p arm is shorter than the q arm |
Spindle Formation | Involved in the spindle formation process during cell division | - |
Observation | Can be observed via karyotyping | Can be observed via karyotyping |
In summary, the main difference between metacentric and submetacentric chromosomes is the position of the centromere and the resulting arm lengths. Metacentric chromosomes have a centromere located at the midpoint, resulting in equal arm lengths, while submetacentric chromosomes have a slightly off-center centromere, leading to unequal arm lengths.
- Metacentric vs Telocentric Chromosomes
- Acrocentric vs Telocentric Chromosomes
- Monocentric Dicentric vs Polycentric Chromosomes
- Centromere vs Chromomere
- Chromosome vs Chromatid
- Centromere vs Telomere
- Centrosome vs Centromere
- Homologous vs Homeologous Chromosomes
- Centromere vs Kinetochore
- Homologous Chromosomes vs Sister Chromatids
- Chromatin vs Chromosomes
- Centriole vs Centromere
- DNA vs Chromosome
- Chromatin vs Chromatid
- Autosomes vs Chromosomes
- Gene vs Chromosome
- Paracentric vs Pericentric Inversion
- Male vs Female Chromosomes
- Centromere vs Centriole