Cell nucleus

Content
Hoechst dye-stained nucleus of HeLa cells The nucleus, or nucleus, is contained in every cell that can divide. The genetic information of the cell is stored in the nucleus. The nucleus is the largest and most important cellular organelle.
 * 1Kernel components
 * 1.1Seed
 * 1.2Chromatin
 * 1.3Nucleic acids [2]
 * 1.4Nuclear cover
 * 2Links
 * Diagram human cell nucleus.svg.1related articles
 * 2.2Reference
 * 2.3References

The three basic tasks of the kernel include:


 * regulation of cell differentiation and maturation,
 * replication and transfer of genetic information to a new cell,
 * synthesis of information RNA ( mRNA ), transfer RNA ( tRNA ) and ribosomal RNA ( rRNA ) and their transport into the cytoplasm.

Kernel components

 * Seed,
 * chromatin (chromosomes),
 * nuclear packaging ,
 * ribosomes - they can be attached to the nuclear envelope, endoplasmic reticulum or just loosely stored in the cytoplasm (either individually or as polyribosomes (polysomes)).Cell nucleus scheme

Seed
A nucleolus is an unbounded nuclear structure visible in interphase. It is stored either loosely in the core or mounts on its inner membrane. Rather than a separate organelle, it is a functional region of the nucleus, which is made up of sequences of acrocentric chromosome satellites (in humans, chromosomes 13, 14, 15, 21 and 22). These regions contain genes for rRNA, hence the main function of the nucleolus, which is rRNA synthesis. The resulting rRNA is involved in the formation of the mature ribosome in the cytoplasm.

Chromatin
Chromatin is visible as a compact "nuclear mass" during interphase. Chromatin itself is a complex of DNA and proteins. According to the degree of condensation (related to the transcriptional activity in a given area), chromatin can be divided into:

Chromatin further spiralizes to the known form of chromosomes during mitosis (or meiosis ), when we can observe the typical structures (letter X) of chromosomes, formed by two sister chromatids connected in the centromere region.. There is a centromere at the bend. There is a characteristic number of chromosomes in each cell (the number of chromosomes is a species-specific feature). A diploid set of chromosomes is typically present in somatic cells of eukaryotic organisms, referred to as 2n. This is because each chromosome is contained twice in the cell (one from the father, one from the mother). When germ cells are formed (by meiosis), the number of chromosomes is halved - only the haploid number is present (only one chromosome remains in each of the chromosome pairs).
 * euchromatin (optically bright parts of chromatin with higher transcriptional activity)
 * heterochromatin (optically dark parts of chromatin with low transcriptional activity)Morphological scheme of the chromosome.

Nucleic acids
Nucleic acids, along with proteins, are the most important macromolecular compounds. It is used to store genetic information, such as cellular memory. We distinguish two types of nucleic acids:


 * deoxyribonucleic acid ( DNA );
 * ribonucleic acid ( RNA ).

DNA occurs in the cell nucleus, where it forms a major component of chromosomes. RNA is found in smaller amounts in the cell nucleus, mainly in the nucleolus. Most RNA is contained in the cytoplasm. We distinguish three basic types of RNA:


 * 1) mediator RNA (mRNA) - serves primarily to transfer genetic information from the nucleus to the cytoplasm;
 * 2) transfer (tRNA) - used to transfer amino acids to the site of protein synthesis, to ribosomes;
 * 3) ribosomal (rRNA) - is contained in ribosomes.

We distinguish between DNA synthesis (ie replication) and the transfer of genetic information from the structure of DNA to the structure of RNA (transcription).


 * Transcription is the transfer of genetic information from the structure of DNA to the structure of mediator RNA. DNA has such a huge molecule that it cannot pass from the nucleus to the cytoplasm. Therefore, the DNA will unravel at a particular site (depending on what genetic information is to be removed from the nucleus) and an additional mRNA strand will be formed according to one untied strand of DNA. The mRNA then enters the cytoplasm from the nucleus.

Nuclear cover
The nuclear envelope has two leaves - outer and inner. Among them is the perinuclear cistern (perinuclear space). Inside is the mass of the nucleus ( caryoplasm ). The outer membrane somewhere freely passes into the membrane of the granular endoplasmic reticulum. The nuclear envelope is permeated by a relatively large number of pores (so-called nuclear pores). By these, the nucleus communicates with the cytoplasm.

related articles

 * Cell membrane
 * Cell
 * Organelle
 * Nuclear cover

Reference

 * 1) ↑ LANGMEIER, Miloš, et al. Basics of medical physiology. 1st edition. Prague: Grada Publishing, as, 2009. 320 pp.  ISBN 978-80-247-2526-0.
 * 2) ↑Jump up to:a b ŠTEFÁNEK, Jiří. Medicine, diseases, study at the 1st Faculty of Medicine, Charles University  [online]. [feeling. February 11, 2010]. < http://www.stefajir.cz >.