Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
Gene/Protein
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Query: UMLS:C0022716 (
Menkes
)
1,057
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
During a systematic chromosomal survey of 167 unrelated boys with the X-linked recessive
Menkes disease
(MIM 309400), a unique rearrangement of the X chromosome was detected, involving an insertion of the long arm segment Xq13.3-q21.2 into the short arm at band Xp11.4, giving the karyotype 46,XY,
ins
(X) (p11.4q13.3q21.2). The same rearranged X chromosome was present de novo in the subject's phenotypically normal mother, where it was preferentially inactivated. The restriction fragment length polymorphism and methylation patterns at DXS255 indicated that the rearrangement originated from the maternal grandfather. Together with a previously described X;autosomal translocation in a female
Menkes
patient, the present finding supports the localization of the
Menkes
locus (MNK) to Xq13, with a suggested fine mapping to sub-band Xq13.3. This localization is compatible with linkage data in both man and mouse. The chromosomal bend associated with the X-inactivation center (XIC) was present on the proximal long arm of the rearranged X chromosome, in line with a location of XIC proximal to MNK. Combined data suggest the following order: Xcen-XIST(XIC), DXS128-DXS171, DXS56-MNK-PGK1-Xqter.
...
PMID:Mapping of the Menkes locus to Xq13.3 distal to the X-inactivation center by an intrachromosomal insertion of the segment Xq13.3-q21.2. 134 49
Menkes disease
is an X-linked recessive disorder of the copper membrane transport system caused by mutations to the
Menkes
(
MNK
) gene. We identified three novel mutations of the
MNK
gene in three unrelated Japanese patients with classical
Menkes disease
by analyzing reverse-transcriptase polymerase chain reaction products and genomic DNA of the
MNK
gene. Firstly, an insertional mutation was found, 1173
ins
A, which led to a premature termination and resulted in a very immature
Menkes
protein. Secondly, we found a point mutation, T2763G, resulting in a leucine-to-arginine conversion, which we predicted would cause a change in the secondary structure of the
Menkes
protein. Finally, we identified a splicing mutation, 2317 + 5G > C, which resulted in the skipping of both exons 8 and 9 or exon 9 only, and led to a truncation of the protein. Each of these mutations is hypothesized to destroy copper-ATPase-mediated copper transport. We propose that each of these mutations in the
MNK
gene plays a causative role in the disease.
...
PMID:Identification of three novel mutations in the MNK gene in three unrelated Japanese patients with classical Menkes disease. 1031 89
