A structure consisting of a single DNA molecule and associated proteins. Several to many chromosomes are found in the nucleus of eukaryotic cells (e.g. in plants and animals), whereas prokaryotes (bacteria and archaea) have a single chromosome. Chromosomes are composed of chromatin and carry the genes in a linear sequence; these determine the individual characteristics of an organism. When the nucleus is not dividing, individual chromosomes cannot be identified with a light microscope. During the first stage of nuclear division, however, the chromosomes contract and, when stained, can be clearly seen under a microscope. Each consists of two chromatids held together at the centromere (see also meiosis; mitosis). The number of chromosomes in each cell is constant for and characteristic of the species concerned. In the normal body cells of diploid organisms the chromosomes occur in pairs (see homologous chromosomes); in the gamete-forming germ cells, however, the diploid number is halved and each cell contains only one member of each chromosome pair. Thus in humans each body cell contains 46 chromosomes (22 matched pairs and one pair of sex chromosomes) and each germ cell 23. Abnormalities in the number or structure of chromosomes may give rise to abnormalities in the individual; Down’s syndrome is the result of one such abnormality. See chromosome mutation.

Bacterial cells contain only a single circular chromosome, typically tethered to the cell’s plasma membrane and highly aggregated into a nucleoid. The organelles of eukaryotes, specifically mitochondria and chloroplasts, also contain multiple copies of very small chromosomes arranged in nucleoids. Viral chromosomes can consist of one or several single- or double-stranded nucleic acid molecules (DNA or RNA). See also artificial chromosome.

https://www2.le.ac.uk/projects/vgec/highereducation/topics/dna-genes-chromosomes Overview of DNA, genes, and chromosomes from the Virtual Genetics Education Centre, University of Leicester