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Target Concepts:
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Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angiotensin II is a potent regulator of cardiovascular homeostasis and binds to two different G-protein-coupled receptors. While the type 1 receptor (
AT1
) mediates the cardiovascular actions of angiotensin II, the function of the recently cloned type 2 receptor (AT2) remains unknown. We have cloned the mouse AT2 receptor gene (Agtr2) and determined its map position by linkage analysis using an interspecific backcross (C57BL/6J x Mus spretus).Agtr2 is located on the proximal mouse X chromosome between DXMit85 and DXMit49, in a region of conserved synteny with a part of the human X chromosome implicated in inherited forms of
premature ovarian failure
. The mapping of Agtr2 may expand a region of conserved synteny with human Xq26 that includes Hprt.
...
PMID:Linkage mapping of the angiotensin AT2 receptor gene (Agtr2) to the mouse X chromosome. 858 43
Premature ovarian failure
(
POF
) is an heterogeneous syndrome. Among genetic causes, X monosomy as in Turner syndrome or X deletions and translocations are known to be responsible for
POF
. The genes involved in ovarian function, located on the X chromosome are still unknown. On the other hand, autosomal abnormalities have been identified in
POF
patients such as mutations of the FSH gene, the LH and FSH receptor genes, chromosome 3q containing the blepharophimosis gene, the
ATM
gene (
Ataxia-telangiectasia
gene). Mutations in the AIRE gene (responsible for APECED syndrome) can involve ovarian insufficiency. It is likely that studies on the function of the protein AIRE might improve our knowledge on follicular development. Furthermore, different mouse models of ovarian failure such as mouse lacking connexins or mice lacking GDF9 (growth derived factor 9), might increase our knowledge of ovarian failure. In the future, a better knowledge of the cellular and biochemical components involved in folliculogenesis and apoptosis should elucidate the mechanisms of
POF
.
...
PMID:Genes and premature ovarian failure. 992 2
Ovarian failure can result from several different genetic mechanisms-X chromosomal abnormalities, autosomal recessive genes causing various types of XX gonadal dysgenesis, and autosomal dominant genes. The number and precise location of loci on the X are still under investigation, but it is clear that, in aggregate, these genes are responsible for ovarian maintenance, given that monosomy X shows germ cells that undergo accelerated atresia. Despite recent hypotheses, at present there is no evidence for a gene directing primary ovarian differentiation; this process may be constitutive. Phenotypic/karyotypic correlation and limited molecular confirmation have long shown that proximal Xp and proximal Xq contain regions of the most importance to ovarian maintenance. Terminal deletions at Xp11 result in 50% primary amenorrhea and 50%
premature ovarian failure
or fertility. Deletions at Xq13 usually produce primary amenorrhea. Terminal deletions nearer the telomeres on either Xp of Xq bring about
premature ovarian failure
more often than complete ovarian failure. The X-linked zinc finger gene (ZFX) and diaphanous 2 Drosophila homologue (DIAPH2) are the only candidate genes for ovarian maintenance that map to the X chromosome. Additional, as yet unidentified, genes along the X chromosome must be involved. The search for these genes in humans is hampered by the lack of candidate genes that map to the X chromosome, the scarcity of patients with fortuitous autosomal translocations, and small pedigrees, which hinder mapping of the loci. In addition, difficulties with human germ cell research also make it challenging to dissect genes important to ovarian development. Autosomal genes also are involved in ovarian differentiation and gonadal failure. Follicle-stimulating hormone receptor and
ataxia telangiectasia
are examples of autosomal genes known to cause human ovarian failure. Transgenic mouse models point to many other candidate autosomal genes, and sequencing of the human homologues in affected women should lead to the discovery of new genes responsible for human ovarian failure. Identification, functional analysis, and mapping of novel genes specifically expressed in the ovary of mice and women eventually should lead to fruitful dissection of essential genes in mammalian ovarian development and maintenance.
...
PMID:Ovarian differentiation and gonadal failure. 1072 94
Non-random de novo autosomal chromosomal rearrangements have not been shown to cause exocrine or gonadal dysfunction. We report on two siblings, a brother and a sister, both with de novo chromosomal rearrangements and gonadal deficiency including
premature ovarian failure
. They had normal phenotypes without additional manifestations of known chromosomal breakage syndromes (except for the gonadal dysfunction) and normal alpha-fetoprotein dosage level. The association of sperm abnormalities in the brother and ovarian dysfunction in the sister suggested an increased spontaneous chromosomal instability. Since the co-occurrence of chromosomal anomalies and reproductive failures may not be coincidental, we performed repeated chromosomal analysis of peripheral blood lymphocytes prior to proposing ICSI for IVF (for the brother). In both sibs, infertility was associated with random and non-random de novo autosomal chromosomal abnormalities. We discuss the possible relationship between these unusual clinical and cytogenetic features and their potential links to
ataxia-telangiectasia
.
...
PMID:Chromosomal instability in two siblings with gonad deficiency: case report. 1557 95
Among the causes of
premature ovarian failure
(
POF
) two groups of factors are reported: factors which lead to decrease of follicular number and factors which stimulate follicular atresia. In the first group genetic factors are the most important whereas in the second: enzymatic autoimmunological, iatrogenic, toxins and infections are reported. In 1986 familiar
POF
on the background of long arm of chromosome X deletion was reported. Other chromosomes which are important for normal ovarian function are: chromosome 21 (AIRE gene), chromosome 11 (gene of beta FSH,
ATM
gene), chromosome 3 (gene responsible for BEPS syndrome) and chromosome 2 (genes of FSH and LH receptors). In this review the role of these genes and results of several epidemiological studies are reported.
...
PMID:[Genetic aspects of premature ovarian failure]. 1635 Jul 32
