Ying‐Hui Fu scite author profile

Familial advanced sleep phase syndrome (FASPS) is an autosomal dominant circadian rhythm variant; affected individuals are “morning larks” with a 4-hour advance of the sleep, temperature, and melatonin rhythms. Here we report localization of the FASPS gene near the telomere of chromosome 2q. A strong candidate gene (h Per2 ), a human homolog of the period gene in Drosophila , maps to the same locus. Affected individuals have a serine to glycine mutation within the casein kinase I ɛ (CKI ɛ ) binding region of hPER2, which causes hypophosphorylation by CKI ɛ in vitro. Thus, a variant in human sleep behavior can be attributed to a missense mutation in a clock component, hPER2, which alters the circadian period.

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Absence of expression of the FMR-1 gene in fragile X syndrome

Pieretti

Zhang

et al. 1991

Cell

1,310

736

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Mutations in Kir2.1 Cause the Developmental and Episodic Electrical Phenotypes of Andersen's Syndrome

Plaster

Tawil

Tristani‐Firouzi

et al. 2001

Cell

882

712

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Andersen's syndrome is characterized by periodic paralysis, cardiac arrhythmias, and dysmorphic features. We have mapped an Andersen's locus to chromosome 17q23 near the inward rectifying potassium channel gene KCNJ2. A missense mutation in KCNJ2 (encoding D71V) was identified in the linked family. Eight additional mutations were identified in unrelated patients. Expression of two of these mutations in Xenopus oocytes revealed loss of function and a dominant negative effect in Kir2.1 current as assayed by voltage-clamp. We conclude that mutations in Kir2.1 cause Andersen's syndrome. These findings suggest that Kir2.1 plays an important role in developmental signaling in addition to its previously recognized function in controlling cell excitability in skeletal muscle and heart.

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Bone Dysplasia Sclerosteosis Results from Loss of the SOST Gene Product, a Novel Cystine Knot–Containing Protein

Brunkow

Gardner

Ness

et al. 2001

The American Journal of Human Genetics

909

677

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Sclerosteosis is an autosomal recessive sclerosing bone dysplasia characterized by progressive skeletal overgrowth. The majority of affected individuals have been reported in the Afrikaner population of South Africa, where a high incidence of the disorder occurs as a result of a founder effect. Homozygosity mapping in Afrikaner families along with analysis of historical recombinants localized sclerosteosis to an interval of approximately 2 cM between the loci D17S1787 and D17S930 on chromosome 17q12-q21. Here we report two independent mutations in a novel gene, termed "SOST." Affected Afrikaners carry a nonsense mutation near the amino terminus of the encoded protein, whereas an unrelated affected person of Senegalese origin carries a splicing mutation within the single intron of the gene. The SOST gene encodes a protein that shares similarity with a class of cystine knot-containing factors including dan, cerberus, gremlin, prdc, and caronte. The specific and progressive effect on bone formation observed in individuals affected with sclerosteosis, along with the data presented in this study, together suggest that the SOST gene encodes an important new regulator of bone homeostasis.

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An Unstable Triplet Repeat in a Gene Related to Myotonic Muscular Dystrophy

Pizzuti

Fenwick

et al. 1992

Science

1,317

580

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Synthetic oligonucleotides containing GC-rich triplet sequences were used in a scanning strategy to identify unstable genetic sequences at the myotonic dystrophy (DM) locus. A highly polymorphic GCT repeat was identified and found to be unstable, with an increased number of repeats occurring in DM patients. In the case of severe congenital DM, the paternal triplet allele was inherited unaltered while the maternal, DM-associated allele was unstable. These studies suggest that the mutational mechanism leading to DM is triplet amplification, similar to that occurring in the fragile X syndrome. The triplet repeat sequence is within a gene (to be referred to as myotonin-protein kinase), which has a sequence similar to protein kinases.

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Modeling of a Human Circadian Mutation Yields Insights into Clock Regulation by PER2

Toh

Jones

et al. 2007

Cell

361

356

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Circadian rhythms are endogenous oscillations of physiological and behavioral phenomena with period length of approximately 24 hr. A mutation in human Period 2 (hPER2), a gene crucial for resetting the central clock in response to light, is associated with familial advanced sleep phase syndrome (FASPS), an autosomal dominant condition with early morning awakening and early sleep times. The FASPS hPER2 S662G mutation resulted in PER2 being hypophosphorylated by casein kinase I (CKI) in vitro. We generated transgenic mice carrying the FASPS hPER2 S662G mutation and faithfully recapitulate the human phenotype. We show that phosphorylation at S662 leads to increased PER2 transcription and suggest that phosphorylation at another site leads to PER2 degradation. Altering CKIdelta dosage modulates the S662 phenotype demonstrating that CKIdelta can regulate period through PER2 in vivo. Modeling a naturally occurring human variant in mice has yielded novel insights into PER2 regulation.

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Ying‐Hui Fu

Identification of a gene (FMR-1) containing a CGG repeat coincident with a breakpoint cluster region exhibiting length variation in fragile X syndrome

Variation of the CGG repeat at the fragile X site results in genetic instability: Resolution of the Sherman paradox

An h Per2 Phosphorylation Site Mutation in Familial Advanced Sleep Phase Syndrome

Absence of expression of the FMR-1 gene in fragile X syndrome

Mutations in Kir2.1 Cause the Developmental and Episodic Electrical Phenotypes of Andersen's Syndrome

Bone Dysplasia Sclerosteosis Results from Loss of the SOST Gene Product, a Novel Cystine Knot–Containing Protein

An Unstable Triplet Repeat in a Gene Related to Myotonic Muscular Dystrophy

Modeling of a Human Circadian Mutation Yields Insights into Clock Regulation by PER2

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