![This is blank.](https://digitalhistology.org/wp-content/themes/histology-unified/imgs/trans.png)
Chromatin
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x
![Nucleus <p>The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x</p>](https://digitalhistology.org/wp-content/uploads/2017/05/C.S.N-9-1-ping.png)
Nucleus
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x
![- Euchromatin <p>The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x</p>](https://digitalhistology.org/wp-content/uploads/2017/05/C.S.N-9-2-ping.png)
- Euchromatin
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x
![- Heterochromatin <p>The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x</p>](https://digitalhistology.org/wp-content/uploads/2017/05/C.S.N-9-3-ping.png)
- Heterochromatin
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x
![RER <p>The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x</p>](https://digitalhistology.org/wp-content/uploads/2022/05/C.S.N-9-RER-ping.png)
RER
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x
![Mitochrondria <p>The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x</p>](https://digitalhistology.org/wp-content/uploads/2022/05/C.S.N-9-Mito-ping.png)
Mitochrondria
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x
![Golgi apparatus <p>The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x</p>](https://digitalhistology.org/wp-content/uploads/2022/05/C.S.N-9-Golgi-ping.png)
Golgi apparatus
The nucleus of this cell demonstrates a large amount of heterochromatin which is mostly peripherally distributed. In some cases the pattern of heterochromatin can be used to identify cells, such as in this plasma cell. 8000x