Chromosome 21 is one of the 23 pairs of chromosomes in humans. Chromosome 21 is both the smallest human autosome and chromosome, with 45 million base pairs (the building material of DNA) representing about 1.5 percent of the total DNA in cells. Most people have two copies of chromosome 21, while those with three copies of chromosome 21 (trisomy 21) have Down syndrome.
Researchers working on the Human Genome Project announced in May 2000 that they had determined the sequence of base pairs that make up this chromosome. Chromosome 21 was the second human chromosome to be fully sequenced, after chromosome 22.
Genes
Number of genes
The following are some of the gene count estimates of human chromosome 21. Because researchers use different approaches to genome annotation, their predictions of the number of genes on each chromosome varies (for technical details, see gene prediction). Among various projects, the collaborative consensus coding sequence project (CCDS) takes an extremely conservative strategy. Thus CCDS's gene number prediction represents a lower bound on the total number of human protein-coding genes.
Gene list
The following is a partial list of genes on human chromosome 21. For complete list, see the link in the infobox on the right.
Diseases and disorders
The following diseases and disorders are some of those related to genes on chromosome 21:
Acute myeloid leukemia
Alzheimer's disease
Amyotrophic lateral sclerosis
Atrial fibrillation, familial
Autoimmune polyendocrine syndrome type 1
Basal ganglia calcification
Bartsocas–Papas syndrome
Bethlem myopathy
Closed angle glaucoma
Cataract
CHAND syndrome
Down syndrome
Epilepsy
Erondu–Cymet syndrome
Ewing sarcoma
Galloway Mowat syndrome
Glucocorticoid deficiency
Hepatitis B (susceptibility to)
Hereditary motor and sensory neuropathy
Holocarboxylase synthetase deficiency
Homocystinuria
Hyperhomocysteinemia
Hypotrichosis
Immunodeficiency
Inflammatory bowel disease
Intellectual developmental disorder
Jervell and Lange-Nielsen syndrome
Keppen–Lubinsky syndrome
Knobloch syndrome
Leukocyte adhesion deficiency-1
Majewski osteodysplastic primordial dwarfism type II (MOPD II, or MOPD2)
Non-small cell lung carcinoma
Neurodevelopmental disorder
Nonsyndromic deafness
Parkinson disease
Peripheral neuropathy
Phosphofructokinase deficiency
Primary ciliary dyskinesia
Primary immunodeficiency
Primitive neuroectodermal tumor
Prostate cancer
Romano–Ward syndrome
Spastic quadriplegia
Ullrich congenital muscular dystrophy
Unverricht–Lundborg disease, a form of progressive myoclonus epilepsy
ZTTK syndrome
Chromosomal conditions
The following conditions are caused by changes in the structure or number of copies of chromosome 21:
Cancers: Rearrangements (translocations) of genetic material between chromosome 21 and other chromosomes have been associated with several types of cancer. For example, acute lymphoblastic leukemia (a type of blood cancer most often diagnosed in childhood) has been associated with a translocation between chromosomes 12 and 21. Another form of leukemia, acute myeloid leukemia, has been associated with a translocation between chromosomes 8 and 21.
In a small percentage of cases, Down syndrome is caused by a rearrangement of chromosomal material between chromosome 21 and another chromosome. As a result, a person has the usual two copies of chromosome 21, plus extra material from chromosome 21 attached to another chromosome. These cases are called translocation Down syndrome. Researchers believe that extra copies of genes on chromosome 21 disrupt the course of normal development, causing the characteristic features of Down syndrome and the increased risk of medical problems associated with this disorder.
Other changes in the number or structure of chromosome 21 can have a variety of effects, including intellectual disability, delayed development, and characteristic facial features. In some cases, the signs and symptoms are similar to those of Down syndrome. Changes to chromosome 21 include a missing segment of the chromosome in each cell (partial monosomy 21) and a circular structure called ring chromosome 21. A ring chromosome occurs when both ends of a broken chromosome are reunited.
Duplication in Amyloid precursor protein (APP) locus (duplicated segment varies in length but includes APP) on Chromosome 21 was found to cause early onset familial Alzheimer's disease in a French family set (Rovelet-Lecrux et al.) and a Dutch family set. Compared to Alzheimer's caused by missense mutations in APP, the frequency of the Alzheimer's caused by APP duplications is significant. All patients that have an extra copy of APP gene due to the locus duplication show Alzheimer's with severe cerebral amyloid angiopathy.
Cytogenetic band
References
Antonarakis SE, Lyle R, Dermitzakis ET, Reymond A, Deutsch S (2004). "Chromosome 21 and down syndrome: from genomics to pathophysiology". Nat Rev Genet. 5 (10): 725–38. doi:10.1038/nrg1448. PMID 15510164. S2CID 5487794.
Antonarakis SE, Lyle R, Deutsch S, Reymond A (2002). "Chromosome 21: a small land of fascinating disorders with unknown pathophysiology". Int J Dev Biol. 46 (1): 89–96. PMID 11902692.
Antonarakis SE (2001). "Chromosome 21: from sequence to applications". Curr Opin Genet Dev. 11 (3): 241–6. doi:10.1016/S0959-437X(00)00185-4. PMID 11377958.
Gilbert F (1997). "Disease genes and chromosomes: disease maps of the human genome. Chromosome 21". Genet Test. 1 (4): 301–6. doi:10.1089/gte.1997.1.301. PMID 10464663.
Hattori M, Fujiyama A, Taylor TD, Watanabe H, Yada T, Park HS, Toyoda A, Ishii K, Totoki Y, Choi DK, Groner Y, Soeda E, Ohki M, Takagi T, Sakaki Y, Taudien S, Blechschmidt K, Polley A, Menzel U, Delabar J, Kumpf K, Lehmann R, Patterson D, Reichwald K, Rump A, Schillhabel M, Schudy A, Zimmermann W, Rosenthal A, Kudoh J, Schibuya K, Kawasaki K, Asakawa S, Shintani A, Sasaki T, Nagamine K, Mitsuyama S, Antonarakis SE, Minoshima S, Shimizu N, Nordsiek G, Hornischer K, Brant P, Scharfe M, Schon O, Desario A, Reichelt J, Kauer G, Blocker H, Ramser J, Beck A, Klages S, Hennig S, Riesselmann L, Dagand E, Haaf T, Wehrmeyer S, Borzym K, Gardiner K, Nizetic D, Francis F, Lehrach H, Reinhardt R, Yaspo ML (2000). "The DNA sequence of human chromosome 21". Nature. 405 (6784): 311–9. Bibcode:2000Natur.405..311H. doi:10.1038/35012518. PMID 10830953.
Sawinska M, Ladon D (2004). "Mechanism, detection and clinical significance of the reciprocal translocation t(12;21)(p12;q22) in the children suffering from acute lymphoblastic leukaemia". Leuk Res. 28 (1): 35–42. doi:10.1016/S0145-2126(03)00160-7. PMID 14630078.
Rovelet-Lecrux A, Hannequin D, Raux G, Le Meur N, Laquerriere A, Vital A, Dumanchin C, Feuillette S, Brice A, Vercelletto M, Dubas F, Frebourg T, Campion D (2005). "APP locus duplication causes autosomal dominant early-onset Alzheimer disease with cerebral amyloid angiopathy". Nature Genetics. 38 (1): 24–6. doi:10.1038/ng1718. PMID 16369530. S2CID 559054.
Anita Rauch; Christian T. Thiel; Detlev Schindler; Ursula Wick; Yanick J. Crow; Arif B. Ekici; Anthonie J. van Essen; Timm O. Goecke; Lihadh Al-Gazali; Krystyna H. Chrzanowska; Christiane Zweier; Han G. Brunner; Kristin Becker; Cynthia J. Curry; Bruno Dallapiccola; Koenraad Devriendt; Arnd Dörfler; Esther Kinning; André Megarbane; Peter Meinecke; Robert K. Semple; Stephanie Spranger; Annick Toutain; Richard C. Trembath; Egbert Voss; Louise Wilson; Raoul Hennekam; Francis de Zegher; Helmut-Günther Dörr; André Reis (2008). "Mutations in the Pericentrin (PCNT) Gene Cause Primordial Dwarfism". Science Online. 319 (5864): 816–9. Bibcode:2008Sci...319..816R. doi:10.1126/science.1151174. PMID 18174396. S2CID 23055733.
External links
National Institutes of Health. "Chromosome 21". Genetics Home Reference. Archived from the original on 2011-06-05. Retrieved 2017-05-06.
"Chromosome 21". Human Genome Project Information Archive 1990–2003. Retrieved 2017-05-06.