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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have identified a compound dinucleotide repeat within intron 7 of the human erythroid 5-aminolevulinate synthase (
ALAS2
) gene with a minimum of 9 alleles and heterozygosity of 78%.
ALAS2
was placed on the multipoint linkage map of the X chromosome in the pericentromeric region with the locus order: pter-(DXS255, TFE3, DXS146)-(DXS14,
ALAS2
, DXZ1)-AR-(DXS153, DXS159)-qter. No recombination was observed between
ALAS2
and the centromere marker DXZ1. As
ALAS2
has recently been shown to be the defective locus in X-linked pyridoxine-responsive sideroblastic anemia (PRSA), the
ALAS2
marker has allowed placement of the gene for PRSA into the multipoint linkage map of the X chromosome. With the previous exclusion of close linkage between DXS14 and sideroblastic anemia with
ataxia
, our data show that there are at least two loci for X-linked sideroblastic anemia.
...
PMID:Identification of a highly polymorphic marker within intron 7 of the ALAS2 gene and suggestion of at least two loci for X-linked sideroblastic anemia. 130 Nov 72
The erythroid-specific (
ALAS2
) and housekeeping (ALAS1) genes encoding delta-aminolevulinate synthase have recently been mapped to chromosomes Xp21.1----q21 and 3p21, respectively. The erythroid-specific gene is a candidate for mutations resulting in X-linked sideroblastic anemia. Analysis of DNA from hybrid clones containing translocations in the region Xp11.21----Xq21.3 permitted the finer localization of the
ALAS2
gene with respect to other loci and breakpoints within this region. These studies localized the
ALAS2
gene to the distal subregion of Xp11.21 in Interval 5 indicating the following gene order: Xpter-OATL2-[L62-3A, Xp11.21; A62-1A-4b, Xp11.21]-(
ALAS2
, DXS323)-[B13-3, Xp11.21; C9-5, Xp11.21]-(DXS14, DXS429)-DXS422-(DXZ1, Xcen). Thus, the reported linkage of acquired sideroblastic anemia and sideroblastic anemia with
ataxia
to Xq13 presumably results from genes other than
ALAS2
.
...
PMID:Assignment of human erythroid delta-aminolevulinate synthase (ALAS2) to a distal subregion of band Xp11.21 by PCR analysis of somatic cell hybrids containing X; autosome translocations. 157 84
Two brothers with X-linked
ataxia
(XLA) were found to have hypochromic red cells and increased erythrocyte protoporphyrin despite normal iron stores. The mother was unaffected by
ataxia
and had normal iron stores but showed evidence of some red cell hypochromia with heavy basophilic stippling that stained positive for iron. Bone marrow biopsy confirmed the presence of ring sideroblasts in one of the brothers. The absence of mutations in the
ALAS2
gene and the predominance of zinc over free protoporphyrin led to a search using a combination of DNA and cDNA analysis for the presence of mutations in the ABC7 gene. ABC7 encodes a mitochondrial half-type ATP Binding Cassette transporter involved in iron homeostasis. The published cDNA sequence was used to search databases for the genomic sequence of which 12 exons spanning 23.4 kb were mapped leaving the most 5' nucleotides unaccounted for. The identified exons and their exon-intron boundaries were amplified from DNA while the most 5' sequence including the initiation codon was amplified from cDNA of peripheral blood cells. Direct sequencing revealed hemizygosity in the brothers and heterozygosity in the mother for a G-->C transversion at position 1299 of the published cDNA. This predicts a V411L substitution at the beginning of the last of six putative transmembrane regions of the protein. Restriction enzyme digestion confirmed the presence of this mutation in the three family members but could not detect it in 200 normal alleles. An uncle affected by
ataxia
also carried this mutation. This study supports the recently hypothesized involvement of the ABC7 gene in XLSA/A and highlights a protein structure region of importance to this syndrome.
...
PMID:X-linked cerebellar ataxia and sideroblastic anaemia associated with a missense mutation in the ABC7 gene predicting V411L. 1184 25
The sideroblastic anemias are a heterogeneous group of acquired and inherited bone marrow disorders defined by the presence of pathologic iron deposits in erythroblast mitochondria. While the pathogenesis of almost all cases of acquired sideroblastic anemia is unknown, the molecular genetic basis for several of the inherited forms have now been described. Initially, mutations in
ALAS2
in X-linked sideroblastic anemia (XLSA) focused attention on the heme biosynthetic pathway as a primary cause of sideroblastic anemia. However, the subsequent description of the genes involved in XLSA with
ataxia
, thiamine-responsive megaloblastic anemia, and Pearson marrow-pancreas syndrome have implicated other pathways, including mitochondrial oxidative phosphorylation, thiamine metabolism, and iron-sulfur cluster biosynthesis, as primary defects in sideroblastic anemias that may only secondarily impact heme metabolism.
...
PMID:The genetics of inherited sideroblastic anemias. 1238 2
Loss-of-function mutations in the ATP-binding cassette (ABC) transporter of the inner mitochondrial membrane, ABCB7, cause X-linked sideroblastic anemia with
ataxia
, a phenotype that remains largely unexplained by the proposed role of ABCB7 in exporting a special sulfur species for use in cytosolic iron-sulfur (Fe-S) cluster biogenesis. Here, we generated inducible ABCB7-knockdown cell lines to examine the time-dependent consequences of loss of ABCB7. We found that knockdown of ABCB7 led to significant loss of mitochondrial Fe-S proteins, which preceded the development of milder defects in cytosolic Fe-S enzymes. In erythroid cells, loss of ABCB7 altered cellular iron distribution and caused mitochondrial iron overload due to activation of iron regulatory proteins 1 and 2 in the cytosol and to upregulation of the mitochondrial iron importer, mitoferrin-1. Despite the exceptionally large amount of iron imported into mitochondria, erythroid cells lacking ABCB7 showed a profound hemoglobinization defect and underwent apoptosis triggered by oxidative stress. In ABCB7-depleted cells, defective heme biosynthesis resulted from translational repression of
ALAS2
by iron regulatory proteins and from decreased stability of the terminal enzyme ferrochelatase. By combining chemical crosslinking, tandem mass spectrometry and mutational analyses, we characterized a complex formed of ferrochelatase, ABCB7 and ABCB10, and mapped the interfaces of interactions of its components. A dimeric ferrochelatase physically bridged ABCB7 and ABCB10 homodimers by binding near the nucleotide-binding domains of each ABC transporter. Our studies not only underscore the importance of ABCB7 for mitochondrial Fe-S biogenesis and iron homeostasis, but also provide the biochemical characterization of a multiprotein complex required for heme biosynthesis.
...
PMID:Dimeric ferrochelatase bridges ABCB7 and ABCB10 homodimers in an architecturally defined molecular complex required for heme biosynthesis. 3076 71
