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Query: UNIPROT:Q00604 (
X-linked
)
16,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This paper discusses the theory and implementation of a model for mapping
X-linked
quantitative trait loci (QTL). As a result of X inactivation, a female's body is subdivided into a number of patches. In each patch one of her two X chromosomes is randomly switched off. This smooths the allelic contributions in a heterozygote and implies that females should show less trait variation than males for an
X-linked
trait. The latest version of the genetic analysis program
Mendel
incorporates a simple variance component version of this model. An application to head circumference in autistic children illustrates
Mendel
in action.
...
PMID:Variance component models for X-linked QTLs. 1667 Nov 10
The evolution of heteromorphic sex chromosomes creates a genetic condition favoring the invasion of sex-ratio meiotic drive elements, resulting in the biased transmission of one sex chromosome over the other, in violation of
Mendel
's first law. The molecular mechanisms of sex-ratio meiotic drive may therefore help us to understand the evolutionary forces shaping the meiotic behavior of the sex chromosomes. Here we characterize a sex-ratio distorter on the X chromosome (Dox) in Drosophila simulans by genetic and molecular means. Intriguingly, Dox has very limited coding capacity. It evolved from another
X-linked
gene, which also evolved de nova. Through retrotransposition, Dox also gave rise to an autosomal suppressor, not much yang (Nmy). An RNA interference mechanism seems to be involved in the suppression of the Dox distorter by the Nmy suppressor. Double mutant males of the genotype dox; nmy are normal for both sex-ratio and spermatogenesis. We postulate that recurrent bouts of sex-ratio meiotic drive and its subsequent suppression might underlie several common features observed in the heterogametic sex, including meiotic sex chromosome inactivation and achiasmy.
...
PMID:A sex-ratio meiotic drive system in Drosophila simulans. II: an X-linked distorter. 1798 75
Sex-ratio drive, which has been documented in several Drosophila species, is induced by
X-linked
segregation distorters. Contrary to
Mendel
's law of independent assortment, the sex-ratio chromosome (X(SR)) is inherited by more than half the offspring of carrier males, resulting in a female-biased sex ratio. This segregation advantage allows X(SR) to spread in populations, even if it is not beneficial for the carriers. In the cosmopolitan species D. simulans, the Paris sex-ratio is caused by recently emerged selfish X(SR) chromosomes. These chromosomes have triggered an intragenomic conflict, and their propagation has been halted over a large area by the evolution of complete drive suppression. Previous molecular population genetics analyses revealed a selective sweep indicating that the invasion of X(SR) chromosomes was very recent in Madagascar (likely less than 100 years ago). Here, we show that X(SR) chromosomes are now declining at this location as well as in Mayotte and Kenya. Drive suppression is complete in the three populations, which display little genetic differentiation and share swept haplotypes, attesting to a common and very recent ancestry of the X(SR) chromosomes. Patterns of DNA sequence variation also indicate a fitness cost of the segmental duplication involved in drive. The data suggest that X(SR) chromosomes started declining first on the African continent, then in Mayotte, and finally in Madagascar and strongly support a scenario of rapid cycling of X chromosomes. Once drive suppression has evolved, standard X(ST) chromosomes locally replace costly X(SR) chromosomes in a few decades.
...
PMID:Rapid rise and fall of selfish sex-ratio X chromosomes in Drosophila simulans: spatiotemporal analysis of phenotypic and molecular data. 2149 5
Monogenic diseases have a distinctive familial inheritance that follows
Mendel
's laws, showing patterns like dominant, recessive, or
X-linked
. There are > 7000 monogenic diseases curated in databases, and together they account for up to 10% of all illnesses encountered in the emergency room or clinic. Despite the rarity of individual monogenic conditions, mapping their causative genes and mutations is important for several reasons. First, knowing the causative gene and mutation could provide actionable information for genetic counselling. Sometimes, knowing the gene and mutation allows for early diagnosis in affected families, which is important if there is an evidence-based intervention. Second, the implication of a mutant gene as being causative for a clinical phenotype provides strong evidence of the importance of the gene product in a cellular or biochemical pathway. Discovery of new molecular pathways in families with rare diseases can serve as the first step toward developing rational therapies to help not only affected families, but also patients with less extreme, nongenetic forms of the same condition. For instance, the study of rare patients with familial hypercholesterolemia helped in developing statin drugs, initially as a treatment for familial hypercholesterolemia but now a widely used therapy to reduce low-density lipoprotein cholesterol and cardiovascular disease risk.
...
PMID:Genetics 101 for cardiologists: rare genetic variants and monogenic cardiovascular disease. 2320 93
Autoantibodies to enterocyte antigens harmonin (75 kDa USH1C protein) and villin (actin-binding 95 kDa protein) are associated with the Immune dysregulation, Polyendocrinopathy, Enteropathy,
X-linked
(IPEX) syndrome. In this study we evaluated the diagnostic value of harmonin and villin autoantibodies in IPEX and IPEX-like syndromes.
Harmonin
and villin autoantibodies were measured by a novel Luminescent-Immuno-Precipitation-System (LIPS) quantitative assay, in patients with IPEX, IPEX-like syndrome, Primary Immunodeficiencies (PID) with enteropathy, all diagnosed by sequencing of the FOXP3 gene, and in type 1 diabetes (T1D), celiac disease and healthy blood donors as control groups.
Harmonin
and villin autoantibodies were detected in 12 (92%) and 6 (46%) of 13 IPEX patients, and in none of the IPEX-like, PID, T1D, celiac patients, respectively. All IPEX patients, including one case with late and atypical clinical presentation, had either harmonin and/or villin autoantibodies and tested positive for enterocyte antibodies by indirect immunofluorescence. When measured in IPEX patients in remission after immunosuppressive therapy or hematopoietic stem cell transplantation, harmonin and villin autoantibodies became undetectable or persisted at low titers in all cases but one in whom harmonin autoantibodies remained constantly high. In one patient, a peak of harmonin antibodies paralleled a relapse phase of enteropathy. Our study demonstrates that harmonin and villin autoantibodies, measured by LIPS, are sensitive and specific markers of IPEX, differentiate IPEX, including atypical cases, from other early childhood disorders associated with enteropathy, and are useful for screening and clinical monitoring of affected children.
...
PMID:Autoantibodies to harmonin and villin are diagnostic markers in children with IPEX syndrome. 2425 Aug 6
