What is the Difference Between Chromatin and Nucleosome?
🆚 Go to Comparative Table 🆚Chromatin and nucleosomes are both involved in the structure and organization of DNA within the nucleus of eukaryotic cells. Here are the key differences between them:
- Chromatin: Chromatin is a highly condensed form of DNA with histone proteins. It is a complex structure that helps to fit the long DNA strands inside the nucleus and plays a crucial role in DNA packaging, replication, and transcription. Chromatin exists in two forms: euchromatin, which is less condensed and can be transcribed, and heterochromatin, which is highly condensed and typically not transcribed.
- Nucleosomes: Nucleosomes are the fundamental units of chromatin, consisting of a small length of DNA (about 146 base pairs) wrapped around eight histone proteins. Nucleosomes are structured with two each of the histones H2A, H2B, H3, and H4, forming a histone octamer that binds and wraps approximately 1.7 turns of DNA. The addition of one H1 protein wraps another 20 base pairs, resulting in two full turns around the octamer and forming a structure called a chromatosome.
In summary, chromatin is the highly condensed, complex structure of DNA with histone proteins that forms chromosomes within the nucleus, while nucleosomes are the basic structural units of chromatin, consisting of DNA wrapped around histone proteins.
On this pageWhat is the Difference Between Chromatin and Nucleosome? Comparative Table: Chromatin vs Nucleosome
Comparative Table: Chromatin vs Nucleosome
Here is a table highlighting the differences between chromatin and nucleosomes:
| Feature | Chromatin | Nucleosome |
|---|---|---|
| Definition | Chromatin is the overall complex of DNA and proteins in the cell nucleus. | Nucleosomes are the basic repeating units within chromatin, consisting of approximately 147 base pairs of DNA wound around a histone protein octamer. |
| Role | Chromatin plays a crucial role in organizing and condensing DNA in the cell nucleus, providing structural support and facilitating DNA replication, gene regulation, and other nuclear processes. | Nucleosomes are the building blocks of chromatin, providing the correct 3-dimensional architecture to the DNA helix, which is essential for packaging DNA into chromatin. |
| Structure | Chromatin is organized into fibers with a diameter of 10 nm, which can be further condensed into 30 nm fibers. | Nucleosomes have a beaded appearance, with the DNA making direct contact with the histones every 10 base pairs. |
| Composition | Chromatin is composed of DNA, histone proteins, and non-histone proteins. | Nucleosomes consist of a DNA core with an octamer of histone proteins (H2A, H2B, H3, and H4). |
| Organization | Chromatin condensation varies during the cell cycle, with most of the chromatin being relatively decondensed in interphase and highly condensed during mitosis. | Nucleosomes are organized into large loops containing approximately 50 to 100 kb of DNA in interphase. |
In summary, chromatin is the overall complex of DNA and proteins in the cell nucleus, while nucleosomes are the basic repeating units within chromatin that provide structural support and facilitate gene regulation and other nuclear processes.
Read more:
- Histones vs Nucleosomes
- Chromatin vs Chromosomes
- Chromatin vs Chromatid
- Chromatin Fiber vs Chromosome
- DNA vs Chromosome
- Chromosome vs Chromatid
- Heterochromatin vs Euchromatin
- Nucleus vs Nucleoid
- Nucleus vs Nucleolus
- Gene vs Chromosome
- DNA vs Histone Methylation
- Interphase Chromatin vs Mitotic Chromosomes
- Cytoplasm vs Nucleoplasm
- Centromere vs Chromomere
- Plasmid vs Chromosome
- Histone vs Nonhistone Proteins
- Homologous Chromosomes vs Sister Chromatids
- Sister vs Nonsister Chromatids
- Plasmid DNA vs Chromosomal DNA