X-linked dominant inheritance

X-linked dominant inheritance, sometimes referred to as X-linked dominance, is a mode of genetic inheritance by which a dominant gene is carried on the X chromosome. As an inheritance pattern, it is less common than the X-linked recessive type. In medicine, X-linked dominant inheritance indicates that a gene responsible for a genetic disorder is located on the X chromosome, and only one copy of the allele is sufficient to cause the disorder when inherited from a parent who has the disorder. In this case, someone who expresses an X-linked dominant allele will exhibit the disorder and be considered affected.^{[citation needed]}

X-linked dominant traits do not necessarily affect males more than females (unlike X-linked recessive traits). The exact pattern of inheritance varies, depending on whether the father or the mother has the trait of interest. All fathers that are affected by an X-linked dominant disorder will have affected daughters but not affected sons. However, if the mother is also affected then sons will have a chance of being affected, depending on whether a dominant or recessive X chromosome is passed on. When the son is affected, the mother will always be affected. Some X-linked dominant conditions are embryonic lethal in males, making them appear to only occur in females.^{[citation needed]}

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Genetics

As the X chromosome is one of the sex chromosomes (the other being the Y chromosome), X-linked inheritance is determined by the sex of the parent carrying a specific gene and can often seem complex. This is due to the fact that, typically, females have two copies of the X-chromosome, while males have only one copy. The difference between dominant and recessive inheritance patterns also plays a role in determining the chances of a child inheriting an X-linked disorder from their parentage.^{[citation needed]}

X-linked dominant disorders tend to affect females more often because they tend to be developmentally fatal in males. This is because males have only one copy of X-chromosome while females have two copies.^{[citation needed]}

Inheritance

In X-linked dominant inheritance, when the mother alone is the carrier of a mutated, or defective gene associated with a disease or disorder; she herself will have the disorder. Her children will inherit the disorder as follows:

Of her daughters and sons: 50% will have the disorder, 50% will be completely unaffected. Children of either sex have an even chance of receiving either of their mother's two X chromosomes, one of which contains the defective gene in question.

When the father alone is the carrier of a defective gene associated with a disease or disorder, he too will have the disorder. His children will inherit the disorder as follows:

Of his daughters: 100% will have the disorder, since all of his daughters will receive one copy of his single X chromosome.
Of his sons: none will have the disorder; sons do not receive an X chromosome from their father.

If both parents were carriers of a defective gene associated with a disease or disorder, they would both have the disorder. Their children would inherit the disorder as follows:

Of their daughters: 100% will have the disorder, since all of the daughters will receive a copy of their father's X chromosome.
Of the sons: 50% will have the disorder, 50% will be completely unaffected. Sons have an equal chance of receiving either of their mother's X chromosomes.

In such a case, where both parents carry and thus are affected by an X-linked dominant disorder, the chance of a daughter receiving two copies of the X chromosome with the defective gene is 50%, since daughters receive one copy of the X chromosome from both parents. Were this to occur with an X-linked dominant disorder, that daughter would likely experience a more severe form.

Some X-linked dominant conditions such as Aicardi syndrome are fatal to boys; therefore only girls with these conditions survive, or boys with Klinefelter's syndrome (and hence have more than one X chromosome).

A few scholars have suggested discontinuing the use of the terms dominant and recessive when referring to X-linked inheritance, stating that the highly variable penetrance of X-linked traits in females as a result of mechanisms such as skewed X-inactivation or somatic mosaicism is difficult to reconcile with standard definitions of dominance and recessiveness.^[1]

List of dominant X-linked diseases

Vitamin D resistant rickets: X-linked hypophosphatemia
Rett syndrome (95% of cases are due to sporadic mutations)
Fragile-X Syndrome
Most cases of Alport syndrome^[2]
Incontinentia pigmenti^[3]^[4]
Giuffrè–Tsukahara syndrome^[5]
Goltz syndrome
X-linked dominant porphyria^[6]
Aicardi Syndrome

References

^ Dobyns WB, Filauro A, Tomson BN, Chan AS, Ho AW, Ting NT, Oosterwijk JC, Ober C (August 2004). "Inheritance of most X-linked traits is not dominant or recessive, just X-linked". American Journal of Medical Genetics. Part A. 129A (2): 136–43. doi:10.1002/ajmg.a.30123. PMID 15316978.
^ Jais JP, Knebelmann B, Giatras I, De Marchi M, Rizzoni G, Renieri A, et al. (October 2003). "X-linked Alport syndrome: natural history and genotype-phenotype correlations in girls and women belonging to 195 families: a "European Community Alport Syndrome Concerted Action" study". Journal of the American Society of Nephrology. 14 (10): 2603–10. doi:10.1097/01.ASN.0000090034.71205.74. PMID 14514738.
^ Ngan V (2005). "Incontinentia pigmenti". DermNet NZ.
^ Incontinentia Pigmenti at eMedicine
^ Dalal AB, Sarkar A, Priya TP, Nandineni MR (August 2010). "Giuffrè-Tsukahara syndrome: Evidence for X-linked dominant inheritance and review". American Journal of Medical Genetics. Part A. 152A (8): 2057–60. doi:10.1002/ajmg.a.33505. PMID 20635354.
^ Seager MJ, Whatley SD, Anstey AV, Millard TP (January 2014). "X-linked dominant protoporphyria: a new porphyria". Clinical and Experimental Dermatology. 39 (1): 35–7. doi:10.1111/ced.12202. PMID 24131146.

X-linked disorders

X-linked recessive
Immune	Chronic granulomatous disease (CYBB) Wiskott–Aldrich syndrome X-linked severe combined immunodeficiency X-linked agammaglobulinemia Hyper-IgM syndrome type 1 IPEX X-linked lymphoproliferative disease Properdin deficiency
Hematologic	Haemophilia A Haemophilia B X-linked sideroblastic anemia
Endocrine	Androgen insensitivity syndrome/Spinal and bulbar muscular atrophy KAL1 Kallmann syndrome X-linked adrenal hypoplasia congenita
Metabolic	Amino acid: Ornithine transcarbamylase deficiency Oculocerebrorenal syndrome Dyslipidemia: Adrenoleukodystrophy Carbohydrate metabolism: Glucose-6-phosphate dehydrogenase deficiency Pyruvate dehydrogenase deficiency Danon disease/glycogen storage disease Type IIb Lipid storage disorder: Fabry disease Mucopolysaccharidosis: Hunter syndrome Purine–pyrimidine metabolism: Lesch–Nyhan syndrome Mineral: Menkes disease/Occipital horn syndrome
Nervous system	X-linked intellectual disability: Coffin–Lowry syndrome MASA syndrome Alpha-thalassemia mental retardation syndrome PHF8 Eye disorders: Color blindness (red and green, but not blue) Ocular albinism (1) Norrie disease Choroideremia Other: Charcot–Marie–Tooth disease (CMTX2-3) Pelizaeus–Merzbacher disease SMAX2
Skin and related tissue	Dyskeratosis congenita Hypohidrotic ectodermal dysplasia (EDA) X-linked ichthyosis X-linked endothelial corneal dystrophy
Neuromuscular	Becker muscular dystrophy/Duchenne Centronuclear myopathy (MTM1) Conradi–Hünermann syndrome Emery–Dreifuss muscular dystrophy 1
Urologic	Alport syndrome Dent's disease X-linked nephrogenic diabetes insipidus
Bone/tooth	AMELX Amelogenesis imperfecta
No primary system	Barth syndrome McLeod syndrome Smith–Fineman–Myers syndrome Simpson–Golabi–Behmel syndrome Mohr–Tranebjærg syndrome Nasodigitoacoustic syndrome

X-linked dominant
X-linked hypophosphatemia Focal dermal hypoplasia Fragile X syndrome Aicardi syndrome Incontinentia pigmenti Rett syndrome CHILD syndrome Lujan–Fryns syndrome Orofaciodigital syndrome 1 Craniofrontonasal dysplasia

This page was last edited on 29 January 2024, at 15:56

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