What is the Difference Between Monocentric Dicentric and Polycentric Chromosomes?
🆚 Go to Comparative Table 🆚The main difference between monocentric, dicentric, and polycentric chromosomes lies in the number of centromeres present in each type:
- Monocentric chromosomes: These chromosomes have a single centromere, which is a specific region that binds to spindle fibers during cell division. Monocentric chromosomes are the most common type found in most organisms, including humans, and are present in all types of plants and animals. They can be classified based on the position of the centromere, such as acrocentric, telocentric, submetacentric, and metacentric chromosomes.
- Dicentric chromosomes: These chromosomes have two centromeres instead of the usual one. Dicentric chromosomes are relatively rare and can lead to various genetic issues. They are formed due to chromosomal anomalies like translocation or an error during DNA replication. Cells with dicentric chromosomes tend to die because they cannot separate at the anaphase stage, resulting in fragmented chromosomes and cell death.
- Polycentric chromosomes: These chromosomes have multiple centromeres distributed along their length. Polycentric chromosomes are less common and are primarily found in certain species of plants and animals, such as nematodes and insects. They are produced as a result of chromosomal anomalies like translocation, deletion, or duplication.
In summary, monocentric chromosomes have one centromere, dicentric chromosomes have two centromeres, and polycentric chromosomes have multiple centromeres.
Comparative Table: Monocentric Dicentric vs Polycentric Chromosomes
Here is a table summarizing the differences between monocentric, dicentric, and polycentric chromosomes:
Feature | Monocentric Chromosomes | Dicentric Chromosomes | Polycentric Chromosomes |
---|---|---|---|
Number of Centromeres | 1 | 2 | Multiple (more than 2) |
Distribution | Common in plants and animals | Rare and formed due to chromosomal anomalies like translocation or deletion | Less common, found in certain species of plants, animals, and algae |
Cell Division | Regular separation during cell division | Cell division is disrupted, leading to fragmentation and cell death | Formed due to chromosomal anomalies like translocation, deletion, or duplication |
Types | Acrocentric, telocentric, submetacentric, and metacentric | Not applicable | Not applicable |
Monocentric chromosomes have a single centromere and are the most common type found in plants and animals. Dicentric chromosomes have two centromeres and are formed due to chromosomal anomalies such as translocation or deletion. Polycentric chromosomes have multiple centromeres and are formed due to chromosomal anomalies like translocation, deletion, or duplication.
- Metacentric vs Telocentric Chromosomes
- Acrocentric vs Telocentric Chromosomes
- Metacentric vs Submetacentric Chromosomes
- Centromere vs Chromomere
- Centrosome vs Centromere
- Homologous vs Homeologous Chromosomes
- Chromosome vs Chromatid
- Centriole vs Centromere
- Centromere vs Centriole
- DNA vs Chromosome
- Paracentric vs Pericentric Inversion
- Homologous Chromosomes vs Sister Chromatids
- Chromatin vs Chromosomes
- Centromere vs Kinetochore
- Chromatin vs Chromatid
- Centriole vs Centrosome
- Polytene vs Lampbrush Chromosome
- Autosomes vs Chromosomes
- Centromere vs Telomere