• Wednesday May 27,2020

Chromosomes

We explain to you what the chromosomes are and how their structure is composed. In addition, its main functions and types of chromosomes.

In chromosomes, most of the genetic information of an individual resides.
  1. What are the chromosomes?

Chromosomes are called highly organized structures inside the biological cells, composed of DNA and other proteins, and where most of the gene information resides. Ethics of an individual. They have a definite form of X, which is perfectly observable during the stages of cell division or replication (meiosis or mitosis).

Each chromosome presents a characteristic shape and size, and they are found in pairs, usually in identical numbers for all individuals of the same species. Depending on the amount of chromosomes that they have (chromosomal load), the cells can be diploid (2n) or haploid (1n). The chromosomal number of the human species is 46 pairs.

Chromosomes were discovered in plant cells at the end of the 19th century by scientists Karl Wilhelm von Ngegel (Switzerland) and Edouard Van Benenden (Belgium), so independent, and its name comes precisely from the tinctures used to observe them (from the Greek: chroma, color, y soma, body ).

But until the twentieth century, the role of chromosomes in inheritance and genetic transmission was not understood: Mendel's laws and the first DNA investigations had to be expected.

In the cells of eukaryotic beings (that is, provided with a cell nucleus), the chromosomes are made up of chromatin, the substance that makes up DNA, RNA and other proteins, some b So-called histones and other non-histones. All this composes nucleosomes, forming inactive groups of DNA that make up the chromosomes themselves.

See also: Mutation.

  1. Chromosome structure

The genes are located in each of the "arms" of a chromatid.

The chromosomes have a double structure, composed of two structures parallel to each other and joined by a centromere, called chromatids. In each of the “arms” of a chromatid, the genes are located, in the same position with respect to their counterpart (remember that they are X-shaped), in compartments called locus (plural loci ).

As the chromosomes are composed of a centromere that divides each chromatid into two arms : one short (arm p) and one long (arm q), depending on the location of the centromere, one can speak of:

  • Metacentric chromosomes The centromere is almost in the middle of the structure, forming arms of very similar length.
  • Submetacentric chromosomes . The centromere is displaced from the center, but not too much. That forms inaccurate and asymmetrical arms, clearly distinguishable.
  • Acrocentric chromosomes . The centromere is at one end, forming long different arms.

On the other hand, eukaryotic chromosomes have telomeres at their ends: composed of regions of non-coding, highly repetitive DNA, which fulfills the function of providing structural stability to the entire chromosome.

In prokaryotic organisms (without a cell nucleus), on the other hand, chromosomes do not have telomeres, since they are circular in shape.

  1. Chromosome function

The function of the chromosomes could not be more important: they are responsible for transmitting the genetic information contained in the DNA of the stem cell to the descendants, allowing cell replication and for the growth of organisms, the replacement of old or damaged cells, and the creation of reproductive cells (as well as new individuals during sexual reproduction). These are biological structures that preserve the genetic content and prevent (if possible) from being damaged or lost.

  1. Types of chromosomes

Prokaryotic chromosomes have a single strand of DNA.

As we have seen, there are different chromosomes for eukaryotic and prokaryotic cells, differentiable in form and function.

  • Prokaryotic chromosomes . They have a single strand of DNA and are located within the nucleoids dispersed in the cytoplasm of the cells.
  • Eukaryotic chromosomes Considerably larger, they have a double strand of linear DNA (double helix).

However, the chromosomes of eukaryotic living beings can also be distinguished according to their specific function in the constitution of the total genome of the individual, something that is extremely important when a new individual of the species is being created through sexual reproduction :

  • Somatic chromosomes Also called autosimics, they give the individual their non-sexual characteristics, that is, those that define him in the rest of the non-reproductive aspects.
  • Sex chromosomes Known as allosomes, they are the chromosomes that determine the sexual characteristics of the individual and therefore can be differentiated according to the biological gender: males have a pair 23 of XY type chromosomes, while that type XX women.

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